example of applied research title in education

25 Applied Research Examples

Applied research is research intended to solve specific and practical problems faced by the researcher and their shareholders.

Grimsgaard (2023) defines it below:

“Applied research tends to drill down more toward solving specific problems that affect people in the here and now.”

It is contrasted to basic research , which is research for its own sake. Bentley, Gulbrandsen and Kyvik (2015) define basic research as “research undertaken with a primary purpose of the advancement of knowledge for its own sake.”

The key benefit of applied research is that it helps solve problems in the real world – it is the embodiment of the concept of ‘invention is the mother of invention. But if we only did applied research, we wouldn’t achieve any of the blue skies breakthroughs that are achieved through basis research.

In fact, applied research often follows up from basic research, finding ways to apply that basic research to real-life needs in society.

Applied Research Examples

• Medicine: Development of a new vaccine to combat a specific viral strain.
• Computer Science: Creating an algorithm to enhance image recognition in smartphones.
• Agriculture: Introducing a genetically modified crop variety to improve yield and pest resistance.
• Psychology: Implementing cognitive-behavioral therapy techniques to treat anxiety disorders.
• Environmental Science: Designing a method to purify water using solar energy in remote areas.
• Engineering: Developing a more efficient and lightweight battery for electric cars.
• Education: Evaluating the effectiveness of online teaching methods on student performance.
• Economics: Assessing the impact of a new taxation policy on consumer spending.
• Sociology: Creating community programs based on studies of urban youth engagement.
• Architecture: Designing earthquake-resistant buildings based on geological research.
• Nutrition: Formulating a diet plan to mitigate the effects of type 2 diabetes.
• Linguistics: Developing language learning apps based on cognitive linguistics research.
• Sports Science: Designing a training regimen to enhance the performance of long-distance runners.
• Marketing: Analyzing consumer behavior to optimize product placement in retail stores.
• Geology: Creating risk assessment tools for communities near active volcanoes.
• Transportation: Designing an urban transportation system based on traffic flow research.
• Marine Biology: Establishing sustainable fishing guidelines based on studies of fish populations.
• Chemistry: Developing a new drug formulation for faster pain relief.
• Physics: Creating more efficient solar panels based on the study of photovoltaic materials.
• Communication Studies: Implementing crisis communication strategies for corporations based on media research.
• Aerospace Engineering: Designing a new airplane wing for reduced fuel consumption.
• Biotechnology: Producing biofuels from algae after studying their growth and energy properties.
• Musicology: Enhancing acoustics in concert halls based on sound wave research.
• Pharmacology: Testing a new drug to treat a rare form of cancer.
• Urban Planning: Designing green spaces in cities based on studies of residents’ mental well-being.

Case Studies

1. the invention of the internet.

One of the most celebrated examples of applied research leading to a groundbreaking invention is the development of the World Wide Web by Sir Tim Berners-Lee.

In the late 1980s and early 1990s, Tim Berners-Lee, a British engineer and computer scientist, was working at CERN, the European Organization for Nuclear Research. His task was to find a way to allow scientists to share data and research results efficiently across the world. The challenge was significant because, at that time, there were no universally accepted and easy-to-use methods for data sharing and retrieval across different computer networks and platforms.

In solving this problem, Berners-Lee developed the three fundamental technologies that remain the foundation of today’s Web (and which you may recognize!):

• HTML : HyperText Markup Language
• URI : Uniform Resource Identifier
• HTTP : Hypertext Transfer Protocol

These technologies enabled the creation and retrieval of linked documents and multimedia across a network of computers. Berners-Lee also created the first web browser and web server to demonstrate and utilize these technologies.

The invention of the World Wide Web has had a profound and transformative impact on society, affecting almost every aspect of our daily lives, including communication, education, business, and entertainment. Berners-Lee’s applied research, initially aimed at solving a specific problem related to scientific data sharing, ended up unleashing a revolutionary tool that reshaped the world.

2. The Discovery of Penicillin

The discovery and development of penicillin, an antibiotic, by Alexander Fleming and its subsequent mass production shows how applied research can lead to revolutionary inventions.

In 1928, Alexander Fleming, a Scottish bacteriologist, observed that a mold called Penicillium notatum was able to kill bacteria in a petri dish. This discovery was quite accidental and came while Fleming was researching staphylococci, a type of bacteria. At this point, it was just basic research .

But in 1939, Howard Florey and Ernst Boris Chain took Fleming’s discovery from a useful laboratory finding to a life-saving drug through extensive research and development. They conducted systematic, applied research to figure out how to mass-produce and purify penicillin.

By 1941, the team had successfully treated its first patient with penicillin, marking a major milestone in medicinal history.

But it was in the years of World War II that penicillin really became a life safer – literally. During World War II, the production of penicillin was scaled up massively to treat wounded soldiers, saving countless lives that might have been lost to bacterial infections.

Fleming’s initial discovery and the subsequent applied research by Florey, Chain, and their team transformed penicillin into a practical, widely available antibiotic.

The development and mass production of penicillin marked the beginning of the antibiotic era, fundamentally altering medicine by providing an effective treatment for bacterial infections.

Applied vs Basic Research

Unlike applied research, basic research seeks to expand knowledge and understanding of fundamental principles and theories without immediate application in mind (Abeysekera, 2019; Bentley, Gulbrandsen & Kyvik, 2015).

Basic research is exploratory and often driven by curiosity or the academic interests of the researcher. The results may not have immediate practical implications but can form the foundation for future applied research (Grimsgaard, 2023).

Applied research , on the other hand, is aimed at addressing specific problems or questions, with the intent of applying the findings to practical solutions or actions (Abeysekera, 2019; Baimyrzaeva, 2018).

It is more structured, systematic, and focused on practical problem-solving or enhancing existing methods. The results are typically intended for immediate application, with direct, observable implications.

Benefits and Limitations of Applied Research

Applied research is specifically designed to address immediate problems, which is one of its greatest advantages.

It helps businesses, industries and policy makers improve operations, products, services or policies, thereby providing practical and immediate solutions (Baimyrzaeva, 2018).

Moreover, its impact can be quantified, making it easier to secure funding. However, the main disadvantage is that it is narrowly focused and its findings may not be universally applicable.

However, the desire for quick, practical results can constrain the methodology, perhaps limiting creativity or ignoring broader implications (Baimyrzaeva, 2018; Marotti de Mello & Wood 2019).

The pressure for immediate usability can also drive researchers towards safe, predictable projects rather than innovative or risky ones.

Abeysekera, A. (2019). Basic research and applied research.  Journal of the National Science Foundation of Sri Lanka ,  47 (3).

Baimyrzaeva, M. (2018). Beginners’ guide for applied research process: What is it, and why and how to do it.  University of Central Asia ,  4 (8).

Bentley, P. J., Gulbrandsen, M., & Kyvik, S. (2015). The relationship between basic and applied research in universities.  Higher Education ,  70 , 689-709. ( Source )

Dunn, D. S. (2012). Research Methods for Social Psychology (2nd ed.). Wiley Global Education.

Grimsgaard, W. (2023). Design and strategy: a step by step guide . New York: Taylor & Francis.

Marotti de Mello, A., & Wood Jr, T. (2019). What is applied research anyway?.  Revista de Gestão ,  26 (4), 338-339. ( Source )

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Applied Research: Definition, Types & Examples

Every research project begins with a clear definition of the investigation’s purpose, which helps to identify the research procedure or approach used. In this sense, a researcher can conduct either basic or applied research.

This research focuses on answering specific questions to solve a specific problem. It tries to identify a solution to a cultural or organizational problem and is often a follow-up research plan for basic or pure research.

In this blog, we will explain the types of applied research and give some examples. But before that, we will go through what it is.

What is applied research?

Applied research is a non-systematic way of finding solutions to specific research problems or issues. These problems or issues can be on an individual, group, or societal level. It is called “non-systematic” because it goes straight to finding solutions.

It is often called a “scientific process” because it uses the available scientific tools and puts them to use to find answers.

Like in regular research, the researcher identifies the problem, makes a hypothesis, and then experiments to test it. It goes deeper into the findings of true or basic research.

LEARN ABOUT:   Research Process Steps

Types of applied research

This research has three types: 

• Evaluation research, 
• Research and Development, and 
• Action research. 

The short versions of each type are explained below:

• Evaluation research

Evaluation research is one type of applied research. It looks at the information on a research subject. This kind of research leads to objective research or helps people make better decisions sooner. Most of the time, evaluation research is used in business settings. 

The organization uses this research to figure out how the overhead costs can be cut down or cut down a lot.

• Research and development

Research and Development is the second type of applied research. Its main goal is to create or design new products, goods, or services that meet the needs of certain markets in society. It finds out what the needs of the market are. It focuses on finding new ways to improve products that already meet an organization’s needs.

• Action research

Action research is the third type of applied research. Action research is a way to learn about things that happen in everyday life and nature. Its goal is to find real-world solutions to business problems by pointing the business in the right direction.

LEARN ABOUT: Action Research

Examples of applied research

Applied study is used in many areas of study and research, from the sciences to the social sciences. We also talk about how it’s used in those fields and give some examples:

• Applied study in business

Applied study in business sectors is fully dependent on their products and services. It helps organizations understand market needs and trends, and then shape their products to fit customers.

Businesses benefit from This research because it allows them to detect gaps in their findings and obtain primary information on target market preferences.

• It can improve hiring.
• It improves work and policy.
• It identifies workplace skill gaps.
• Applied study in education

The applied study is used in the education field to test different ways of teaching and to find better ways of teaching and learning. Before implementing new education policies, they are tested to see how well they work, how they affect teaching, and how the classroom works.

Applied education research uses quantitative and qualitative methods to collect data from first-hand sources. This information is then looked at and interpreted differently to generate valuable results or conclusions.

LEARN ABOUT: Qualitative Interview

Most applied research in this field is done to develop and test different ways of doing things by trying them out in different situations. It is based on accurate observations and descriptions of the real world.

• Applied study to understand the reach of online learning initiatives.
• Applied study to promote teacher-student classroom engagement.
• Applied study on the new math program.
• Applied study in science

As already said, applied study is often called a scientific process because it uses the available scientific tools to find answers. It can be used in physics, microbiology, thermodynamics, and other fields.

• The applied study is put into practice to cure a disease.
• The applied study is put into practice to improve agricultural practices.
• The applied study is applied to testing new laboratory equipment.
• Applied study in psychology

Researchers use this research in psychology to figure out how people act at work, how HR works, and how the organization is growing and changing so they can come up with solutions.

It is used a lot in areas where researchers try to figure out how people think and then come up with solutions that fit their behavior best.

• Applied study to figure out new ways to deal with depression.
• Applied study to improve students’ grades by emphasizing practical Education.
• Applied study to create a plan to keep employees coming to work regularly.
• Applied study in health

This research is used to examine new drugs in the medical industry. It combines scientific knowledge and procedures with health experiences to produce evidence-based results.

• Applied study in heart surgery.
• Applied study to determine a drug’s efficacy.
• Applied study on a medicine’s adverse effects.

LEARN ABOUT: Theoretical Research

Applied research is an important way to research because it helps organizations find real-world solutions to specific problems while also increasing their output and productivity. In contrast to basic research, which focuses on making theories that explain things, applied research focuses on describing evidence to find solutions.

In the applied study, the researcher uses qualitative and quantitative methods to collect data, such as questionnaires, interviews, and observation methods. Conducting interviews is one of the examples of qualitative data in education . It helps the researcher collect real-world evidence, which is then tested depending on the type of applied research and the main focus.

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• What is Applied Research? + [Types, Examples & Method]

Every research begins with a clear delineation of the purpose of the investigation as this goes a long way to determine the research process or methodology adopted. In this sense, a researcher may choose to carry out basic research or applied research. 

Applied research is set on providing answers to specific questions in a bid to provide a solution to a defined problem. In this article, we will outline the features of this method of systematic investigation as well as how it differs from other approaches to research. 

What is Applied Research?

Applied research is a type of research design that seeks to solve a specific problem or provide innovative solutions to issues affecting an individual, group or society. It is often referred to as a scientific method of inquiry or contractual research because it involves the practical application of scientific methods to everyday problems. 

When conducting applied research, the researcher takes extra care to identify a problem, develop a research hypothesis and goes ahead to test these hypotheses via an experiment. In many cases, this research approach employs empirical methods in order to solve practical problems. 

Applied research is sometimes considered to be a non-systematic inquiry because  of its direct approach in  seeking a solution to a problem. It is typically a follow-up research design that further investigates the findings of pure or basic research in order to validate these findings and apply them to create innovative solutions.     

Types of Applied Research

There are 3 types of applied research. These are evaluation research, research and development, and action research.

• Evaluation Research

Evaluation research is a type of applied research that analyses existing information about a research subject to arrive at objective research outcomes or reach informed decisions. This type of applied research is mostly applied in business contexts, for example, an organisation may adopt evaluation research to determine how to cut down  overhead costs.

• Research and Development

Research and development is a type of applied research that is focused on developing new products and services based on the needs of target markets. It focuses on gathering information about marketing needs and finding ways to improve on an existing product or create new products that satisfy the identified needs.

• Action Research

Action research is a type of applied research that is set on providing practical solutions to specific business problems by pointing the business in the right directions. Typically, action research is a process of reflective inquiry that is limited to specific contexts and situational in nature.

Examples of Applied Research 

Applied research is relevant in different fields of study; especially science and social science-related fields. Examples of applied research can be seen in medicine, education, business, engineering, psychology and health, and these would be further explicated below. 

Applied Research Example in Business

Applied research is used in business to build knowledge and develop product solutions. It enables organisations to identify the peculiar needs of target markets and this would help them to create different business strategies that would allow them to satisfy these needs. 

In addition, conducting contractual research would help business owners to get insightful feedback on product gaps that may have, otherwise, been ignored. This is a great way to get first-hand information on target market reactions which can inform brand decisions. 

Applied research also helps employers of labour to identify and address the productivity needs of their workforce. For instance, an organization may carry out applied research in order to measure the effectiveness of its recruitment practices or of its organisational structure. 

• Applied research to improve an organization’s hiring process.
• Applied research to improve workplace efficiency and organizational policies.
• Applied research to bridge skill gaps in the workplace.

Applied Research Examples in Education  

In education, applied research is used to test pedagogic processes in order to discover the best teaching and learning methods. It is also used to test educational policies before implementation and to address different issues associated with teaching paradigms and classroom dynamics for a better learning experience. 

Educational applied research attempts solving a problem by gathering data from primary sources using a combination of qualitative and quantitative data collection methods. This data serves as empirical evidence which is then subjected to rigorous analysis and description in order to arrive at valid conclusions.

The goal of this research methodology is to determine the applicability of educational theory and principles by way of subjecting hypotheses to experimentation within specific settings. Applied research in education is also more utilitarian as it gathers practical evidence that can inform pragmatic solutions to problems. 

Characteristics of Applied Research in Education 

• It clearly highlights generalizations and hypotheses that inform the research findings.
• It relies on empirical evidence.
• It is set at providing solutions to a defined problem.
• It requires accurate observation and description.
• A study into the way to improve teacher-learner classroom engagements.
• A study into the way to improve a school’s readiness for its students.
• A study to build students’ interests in Mathematics.

Applied Research Example in Science

In itself, applied research is a scientific method of investigation because it applies existing scientific knowledge to practical situations. It is useful in different fields including thermodynamics, physics, material sciences and microbiology. 

Examples of applied research in science include the following: 

• Applied research to improve agricultural crop production
• Applied research to treat or cure a specific disease.

Applied Research Examples in Psychology  

There are different reasons psychologists would make use of applied research in the course of their work. In many cases, industrial-psychologists concerned with workplace behavior, human resources and organisational development combine psychological principles with applied research to proffer solutions. 

Examples of applied research in psychology include:

• Applied research to improve workplace commitment by arriving at practical worker-motivation strategies.
• Investigating treatment and management options for anxiety and panic attacks.
• Investigating factors that improve worker’s productivity.

Applied Research Example in Health   

In health and medical sciences, applied research serves as the background to evidence-based and solution-oriented medicine. It effectively merges scientific knowledge and methods with health experiences in order to arrive at accurate and verifiable results; using empirical research data or evidence. 

The adaptation of applied research to medicine is referred to as applied clinical research . Many health and medical practitioners use applied research to measure the extent to which the findings of basic or pure research can be adopted or modified into a solution-oriented approach.

Examples of applied research in health include:

• An investigation to identify the healing properties of a specific herb.
• An investigation to identify the side effects of using a particular drug.

APPLIED RESEARCH METHODS

Qualitative and quantitative data collection methods are used in applied research to gather empirical evidence that is further subjected to experimentation in order to arrive at valid research outcomes. The following are data collection methods in applied research:

An interview is a qualitative method of data collection that involves having a one-on-one interaction or discussion with the research subjects in order to gather relevant information that can serve as empirical data. It can be conducted with the use of an audio recorder, digital camera or camcorder.

Even though it is time-consuming and expensive, interviews allow the researcher to gather the most relevant data which gives him or her in-depth knowledge about the research subjects. An interview may be structured, semi-structured or unstructured; depending on the research purpose. 

• Surveys/Questionnaires

A questionnaire is an instrument that is typically used for quantitative data gathering . It outlines a series of questions relating to the research context and requires the research subjects to choose or provide responses that reflect their knowledge and experiences.

There are different types of questions that can be contained in a questionnaire including rating scale question s, close and open-ended questions and fixed alternatives. You can create and administer your applied research survey using data-collection platforms like Formplus . 

You can also start choosing from our over 200 online survey/questionnaire templates.

Here is a step-by-step guide on  how to create and administer questionnaires for applied research using Formplus

Sign in to Formplus

In the Formplus builder, you can easily create different questionnaires for applied research by dragging and dropping preferred fields into your form. To access the Formplus builder, you will need to create an account on Formplus. 

Once you do this, sign in to your account and click on “Create Form ” to begin.

Edit Form Title

Click on the field provided to input your form title, for example, “Applied Research Questionnaire”.

Click on the edit button to edit the form.

i. Add Fields: Drag and drop preferred form fields into your form in the Formplus builder inputs column. There are several field input options for questionnaires in the Formplus builder. 

ii. Edit fields

iii. Click on “Save”

iv. Preview form. 

Form Customization

With the form customization options in the form builder, you can easily improve on the appearance of your questionnaire and make it more unique and personalized. Formplus allows you to change your form theme, add background images and even change the font according to your needs. 

Multiple Sharing Options

Formplus also provides multiple form sharing options which enables you to easily share your questionnaire with respondents. With the direct social media sharing buttons, you can swiftly share your applied research questionnaire link to your organization’s social media pages. 

You can send out your questionnaire as email invitations to your research subjects too. Formplus also allows you to share your form’s QR code or embed it in your organization’s website for easy access. 

• Data Reporting

The process of gathering useful information about a research subject which can be used for further research. This can be done through not-for-profit reports, newspapers, website articles and hospital records.

It helps you  gather relevant data that results in more insightful decisions.  However, it is susceptible to bias because the information can easily be exaggerated by the individual or group collecting the data. 

• Observation

A type of data gathering method in applied research that requires the researcher to pay close attention to a subject (s) in order to gather useful information about it. Although bias may arise with this method, observation is widely considered as a universally accepted research practice.

Observation helps the researcher to gather empirical data and thus, it is the starting point for the formulation of a hypothesis. There are different techniques for observation including complete observer, complete participant, participant as observer and observer as participant. 

• Focus Groups

A focus group is a type of qualitative data collection process that allows the researcher to gather information about the disposition, feelings and opinions of the research subjects about a specific issue.

Here, the researcher engages a group comprising 6-10 individuals with a range of open-ended questions with the aim of gathering feedback about their emotional disposition to the issue at hand. This method is cost-effective compared to one-on-one interviews, and the information obtained is insightful and detailed. 

How is Applied Research Different from Basic Research?

Applied research and basic research are common methods of inquiry, based on purpose or utility. However, there are key differences between these 2 research approaches and these would be clearly outlined below: 

Applied research is a type of research that is aimed at the practical application of science in order to solve practical problems. On the other hand, basic research is a type of research that is aimed at expanding knowledge rather than solving problems. 

Basic research is theoretical in nature while applied research is practical and descriptive in nature. Basic research explores and generates theories that may be abstract while applied research tests these theories in order to solve a problem. 

Basic research is universal while applied research is limited. Basic research can focus on diverse or multiple contexts while applied research focuses on specific contexts with the aim of providing a solution to an identified problem. 

Applied research is focused on providing answers or solutions to a specific research question while basic research focuses on multiple concepts at the same time in its quest to expand knowledge. 

• Applied research pays attention to external validity while basic research is more focused on internal validity .

Characteristics of Applied Research 

• Applied research is solution-specific and it addresses practical problems. Unlike basic research that is aimed at theorizing and expanding knowledge, applied research focuses on addressing a particular problem using a range of science-based approaches.
• Applied research is descriptive in nature as it arrives at solutions by experimenting on empirical evidence and describing research outcomes.
• Usually, applied research tests theories arrived at by pure research in order to determine the usefulness of these theories in solving practical problems.
• It describes the relationship between research variables by measuring the characteristics of dependent and independent variables.
• Applied research relies on empirical evidence in order to arrive at valid research outcomes.
• It is not theoretical and it is not directly concerned with the expansion of knowledge.
• Applied research is synthetic in nature.
• It is aimed at the cost-effective reduction of social problems.
• Applied research is action-oriented.

Advantages of Applied Research

• Validity: Applied research is unbiased in nature because it tests empirical evidence in order to arrive at valid research outcomes. It employs carefully mapped-out procedures, and this makes it a more valid research approach.
• It is useful in solving specific problems. It helps individuals and organizations to find solutions to specific problems.

Disadvantages of Applied Research 

• It is not flexible in nature as it is restricted to a stipulated deadline.
• Applied research is limited in nature and it cannot be generalized. In other words, the findings from applied research cannot be generalized.

Conclusion 

Applied research is an important research approach because it helps organisations to arrive at practical solutions to specific problems while improving their productivity and output. Unlike basic research that focuses on generating theories that explain phenomena, applied research pays attention to describing empirical evidence with the aim of providing solutions. 

In carrying out applied research, the researcher combines a number of qualitative and quantitative data-gathering methods including questionnaires, observation methods, and interviews. This helps the researcher to gather empirical evidence that is then subjected to experimentation depending on the type of applied research and the overall focus. 

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Putting Applied Research to Work in Your School or District

What is applied research, steps of applied research, form a research team, develop research questions, design research and collect data, analyze processes and disseminate findings, why you should try applied research, figure 1. the elements of applied research.

• The types of data to be collected (such as interviews, focus groups, surveys, observational field notes, student and teacher work, and existing quantitative metrics).
• The timeline for collecting data (such as one month, one semester, or an entire year).
• A plan for analyzing data (such as dividing up the data into manageable chunks, discussing themes that emerge from the data).
• Strategies for validating data (such as having multiple data sources and multiple interviewers).
• The types of research participants (such as what constituencies are important to understanding a diversity of perspectives on the issue).

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Home » Applied Research – Types, Methods and Examples

Applied Research – Types, Methods and Examples

Table of Contents

Applied Research

Definition:

Applied research is a type of scientific inquiry that focuses on developing practical solutions to real-world problems. It involves the use of existing knowledge, theories, and techniques to address specific problems or challenges in a particular field or industry.

Applied research is often conducted in collaboration with industry or government partners, who provide funding and expertise to support the research. The results of applied research are typically intended to be directly applicable to the real world, and may involve the development of new products, technologies, or processes.

Types of Applied Research

Types of Applied Research are as follows:

Action Research

This type of research is designed to solve specific problems within an organization or community. The research involves collaboration between researchers and stakeholders to develop solutions to issues that affect the organization or community.

Evaluation Research

This type of research is used to assess the effectiveness of a particular program, policy, or intervention. Evaluation research is often used in government, healthcare, and social service settings to determine whether programs are meeting their intended goals.

Developmental Research

This type of research is used to develop new products, technologies, or processes. The research may involve the testing of prototypes or the development of new methods for production or delivery.

Diagnostic Research

This type of research is used to identify the causes of problems or issues. Diagnostic research is often used in healthcare, where researchers may investigate the causes of a particular disease or condition.

Policy Research

This type of research is used to inform policy decisions. Policy research may involve analyzing the impact of existing policies or evaluating the potential outcomes of proposed policies.

Predictive Research

This type of research is used to forecast future trends or events. Predictive research is often used in marketing, where researchers may use data analysis to predict consumer behavior or market trends.

Data Collection Methods

In applied research, data collection methods can be broadly classified into two categories: Quantitative and Qualitative methods:

Quantitative Data Collection

Quantitative research methods involve collecting numerical data that can be analyzed statistically. The most commonly used quantitative data collection methods in applied research include:

• Surveys : Surveys are questionnaires designed to collect data from a large sample of people. Surveys can be conducted face-to-face, over the phone, or online.
• Experiments : Experiments involve manipulating variables to test cause-and-effect relationships. Experiments can be conducted in the lab or in the field.
• Observations : Observations involve watching and recording behaviors or events in a systematic way. Observations can be conducted in the lab or in natural settings.
• Secondary data analysis: Secondary data analysis involves analyzing data that has already been collected by someone else. This can include data from government agencies, research institutes, or other sources.

Qualitative Data Collection

Qualitative research methods involve collecting non-numerical data that can be analyzed for themes and patterns. The most commonly used qualitative data collection methods in applied research include:

• Interviews : Interviews involve asking open-ended questions to individuals or groups. Interviews can be conducted in-person, over the phone, or online.
• Focus groups : Focus groups involve a group of people discussing a topic with a moderator. Focus groups can be conducted in-person or online.
• Case studies : Case studies involve in-depth analysis of a single individual, group, or organization.
• Document analysis : Document analysis involves analyzing written or recorded documents to extract data. This can include analyzing written records, audio recordings, or video recordings.

Data Analysis Methods

In applied research, data analysis methods can be broadly classified into two categories: Quantitative and Qualitative methods:

Quantitative Data Analysis

Quantitative data analysis methods involve analyzing numerical data to identify patterns and trends. The most commonly used quantitative data analysis methods in applied research include:

• Descriptive statistics: Descriptive statistics involve summarizing and presenting data using measures such as mean, median, mode, and standard deviation.
• Inferential statistics : Inferential statistics involve testing hypotheses and making predictions about a population based on a sample of data. This includes methods such as t-tests, ANOVA, regression analysis, and correlation analysis.
• Data mining: Data mining involves analyzing large datasets to identify patterns and relationships using machine learning algorithms.

Qualitative Data Analysis

Qualitative data analysis methods involve analyzing non-numerical data to identify themes and patterns. The most commonly used qualitative data analysis methods in applied research include:

• Content analysis: Content analysis involves analyzing written or recorded data to identify themes and patterns. This includes methods such as thematic analysis, discourse analysis, and narrative analysis.
• Grounded theory: Grounded theory involves developing theories and hypotheses based on the analysis of data.
• Interpretative phenomenological analysis: Interpretative phenomenological analysis involves analyzing data to identify the subjective experiences of individuals.
• Case study analysis: Case study analysis involves analyzing a single individual, group, or organization in-depth to identify patterns and themes.

Applied Research Methodology

Applied research methodology refers to the set of procedures, tools, and techniques used to design, conduct, and analyze research studies aimed at solving practical problems in real-world settings. The general steps involved in applied research methodology include:

• Identifying the research problem: The first step in applied research is to identify the problem to be studied. This involves conducting a literature review to identify existing knowledge and gaps in the literature, and to determine the research question.
• Developing a research design : Once the research question has been identified, the next step is to develop a research design. This involves determining the appropriate research method (quantitative, qualitative, or mixed methods), selecting the data collection methods, and designing the sampling strategy.
• Collecting data: The third step in applied research is to collect data using the selected data collection methods. This can include surveys, interviews, experiments, observations, or a combination of methods.
• Analyzing data : Once the data has been collected, it needs to be analyzed using appropriate data analysis methods. This can include descriptive statistics, inferential statistics, content analysis, or other methods, depending on the type of data collected.
• Interpreting and reporting findings : The final step in applied research is to interpret the findings and report the results. This involves drawing conclusions from the data analysis and presenting the findings in a clear and concise manner.

Applications of Applied Research

Some applications of applied research are as follows:

• Product development: Applied research can help companies develop new products or improve existing ones. For example, a company might conduct research to develop a new type of battery that lasts longer or a new type of software that is more efficient.
• Medical research : Applied research can be used to develop new treatments or drugs for diseases. For example, a pharmaceutical company might conduct research to develop a new cancer treatment.
• Environmental research : Applied research can be used to study and address environmental problems such as pollution and climate change. For example, research might be conducted to develop new technologies for reducing greenhouse gas emissions.
• Agriculture : Applied research can be used to improve crop yields, develop new varieties of plants, and study the impact of pests and diseases on crops.
• Education : Applied research can be used to study the effectiveness of teaching methods or to develop new teaching strategies.
• Transportation : Applied research can be used to develop new technologies for transportation, such as electric cars or high-speed trains.
• Communication : Applied research can be used to improve communication technologies, such as developing new methods for wireless communication or improving the quality of video calls.

Examples of Applied Research

Here are some real-time examples of applied research:

• COVID-19 Vaccine Development: The development of COVID-19 vaccines is a prime example of applied research. Researchers applied their knowledge of virology and immunology to develop vaccines that could prevent or reduce the severity of COVID-19.
• Autonomous Vehicles : The development of autonomous vehicles involves applied research in areas such as artificial intelligence, computer vision, and robotics. Companies like Tesla, Waymo, and Uber are conducting extensive research to improve their autonomous vehicle technology.
• Renewable Energy : Research is being conducted on renewable energy sources like solar, wind, and hydro power to improve efficiency and reduce costs. This is an example of applied research that aims to solve environmental problems.
• Precision Agriculture : Applied research is being conducted in the field of precision agriculture, which involves using technology to optimize crop yields and reduce waste. This includes research on crop sensors, drones, and data analysis.
• Telemedicine : Telemedicine involves using technology to deliver healthcare remotely. Applied research is being conducted to improve the quality of telemedicine services, such as developing new technologies for remote diagnosis and treatment.
• Cybersecurity : Applied research is being conducted to improve cybersecurity measures and protect against cyber threats. This includes research on encryption, network security, and data protection.

Purpose of Applied Research

The purpose of applied research is to solve practical problems or improve existing products, technologies, or processes. Applied research is focused on specific goals and objectives and is designed to have direct practical applications in the real world. It seeks to address problems and challenges faced by individuals, organizations, or communities and aims to provide solutions that can be implemented in a practical manner.

The primary purpose of applied research is to generate new knowledge that can be used to solve real-world problems or improve the efficiency and effectiveness of existing products, technologies, or processes. Applied research is often conducted in collaboration with industry, government, or non-profit organizations to address practical problems and create innovative solutions.

Applied research is also used to inform policy decisions by providing evidence-based insights into the effectiveness of specific interventions or programs. By conducting research on the impact of policies and programs, decision-makers can make informed decisions about how to allocate resources and prioritize interventions.

Overall, the purpose of applied research is to improve people’s lives by developing practical solutions to real-world problems. It aims to bridge the gap between theory and practice, and to ensure that research findings are put into action to achieve tangible benefits.

When to use Applied Research

Here are some specific situations when applied research may be appropriate:

• When there is a need to develop a new product : Applied research can be used to develop new products that meet the needs of consumers. For example, a company may conduct research to develop a new type of smartphone with improved features.
• When there is a need to improve an existing product : Applied research can also be used to improve existing products. For example, a company may conduct research to improve the battery life of an existing product.
• When there is a need to solve a practical problem: Applied research can be used to solve practical problems faced by individuals, organizations, or communities. For example, research may be conducted to find solutions to problems related to healthcare, transportation, or environmental issues.
• When there is a need to inform policy decisions: Applied research can be used to inform policy decisions by providing evidence-based insights into the effectiveness of specific interventions or programs.
• When there is a need to improve efficiency and effectiveness: Applied research can be used to improve the efficiency and effectiveness of processes or systems. For example, research may be conducted to identify ways to streamline manufacturing processes or to improve the delivery of healthcare services.

Characteristics of Applied Research

The following are some of the characteristics of applied research:

• Focus on solving real-world problems : Applied research focuses on addressing specific problems or needs in a practical setting, with the aim of developing solutions that can be implemented in the real world.
• Goal-oriented: A pplied research is goal-oriented, with a specific aim of solving a particular problem or meeting a specific need. The research is usually designed to achieve a specific outcome, such as developing a new product, improving an existing process, or solving a particular issue.
• Practical and relevant: Applied research is practical and relevant to the needs of the industry or field in which it is conducted. It aims to provide practical solutions that can be implemented to improve processes or solve problems.
• Collaborative : Applied research often involves collaboration between researchers and practitioners, such as engineers, scientists, and business professionals. Collaboration allows for the exchange of knowledge and expertise, which can lead to more effective solutions.
• Data-driven: Applied research is data-driven, relying on empirical evidence to support its findings and recommendations. Data collection and analysis are important components of applied research, as they help to identify patterns and trends that can inform decision-making.
• Results-oriented: Applied research is results-oriented, with an emphasis on achieving measurable outcomes. Research findings are often used to inform decisions about product development, process improvement, or policy changes.
• Time-bound : Applied research is often conducted within a specific timeframe, with deadlines for achieving specific outcomes. This helps to ensure that the research stays focused on its goals and that the results are timely and relevant to the needs of the industry or field.

Advantages of Applied Research

Some of the advantages of applied research are as follows:

• Practical solutions: Applied research is focused on developing practical solutions to real-world problems, making it highly relevant to the needs of the industry or field in which it is conducted. The solutions developed through applied research are often highly effective and can be implemented quickly to address specific issues.
• Improved processes: Applied research can help organizations to improve their processes, leading to increased efficiency and productivity. The research can identify areas for improvement, such as bottlenecks or inefficiencies, and provide recommendations for optimizing processes.
• Innovation: Applied research can lead to the development of new products, services, and technologies that can transform industries and create new opportunities for growth and innovation. The research can help organizations to identify unmet needs and develop new solutions to meet them.
• Collaboration : Applied research often involves collaboration between researchers and practitioners, leading to the exchange of knowledge and expertise. Collaboration can result in more effective solutions and can help to build partnerships between academia and industry.
• Increased competitiveness : Applied research can help organizations to stay competitive by enabling them to adapt to changing market conditions and customer needs. The research can provide insights into emerging trends and technologies, helping organizations to stay ahead of the curve.
• Economic growth: Applied research can contribute to economic growth by creating new industries and jobs. The research can lead to the development of new technologies and products that can drive economic growth and create new opportunities for entrepreneurship and innovation.

Limitations of Applied Research

Some of the limitations of applied research are as follows:

• Limited generalizability: Applied research often focuses on specific contexts and may not be generalizable to other settings. This means that the findings of applied research may not be applicable to other industries, regions, or populations.
• Time and resource constraints: Applied research is often conducted within a specific timeframe and with limited resources. This can limit the scope and depth of the research and may prevent researchers from exploring all possible avenues.
• Potential for bias: Applied research may be influenced by the interests and perspectives of the organization or industry funding the research. This can lead to a bias in the research and potentially compromise the objectivity and validity of the findings.
• Ethical considerations: Applied research may raise ethical concerns, particularly if it involves human subjects or sensitive issues. Researchers must adhere to ethical standards and ensure that the research is conducted in a responsible and respectful manner.
• Limited theoretical development: Applied research tends to focus on practical solutions and may not contribute significantly to theoretical development in a particular field. This can limit the broader impact of the research and may hinder the development of new theories and frameworks.
• Limited focus on long-term impact: Applied research often focuses on short-term outcomes, such as developing a new product or improving a process. This may limit the focus on long-term impacts, such as the sustainability of the solution or its broader implications for the industry or society.

About the author

Muhammad Hassan

Researcher, Academic Writer, Web developer

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• 09 January, 2024

Commencing a research journey involves a distinct definition of the investigation’s purpose, guiding the selection of the research procedure or approach. In this context, researchers can opt for either basic or applied research , each with its unique characteristics and objectives.

Embarking on the journey of conducting applied research requires a blend of theoretical knowledge and practical application. Understanding the nuances of applied research and its distinctions from basic research is crucial before delving into the intricacies of crafting an impactful paper.

What is Applied Research?

Applied research addresses specific problems with the goal of finding practical solutions. Distinguishing it from basic research, which primarily seeks to expand theoretical knowledge, applied research focuses on resolving real-world issues. It serves as a follow-up to basic or pure research, aiming to identify solutions to specific issues at individual, group, or societal levels.

Applied research encompasses various types, each tailored to address specific challenges and practical issues in different domains. The following are three common types of applied research with examples:

1. Evaluation Research:

• Purpose: Evaluation research aims to assess the effectiveness, efficiency, and relevance of programs, policies, or interventions. It seeks to determine the impact and outcomes of specific actions and initiatives.

• Application: Often employed in business, government, and non-profit sectors, evaluation research helps organisations make informed decisions by providing data-driven insights into the success or shortcomings of their endeavors.

• Example: Evaluating the impact of a workplace training program on employee productivity and job satisfaction.

2. Research and Development (R&D):

• Purpose: Research and Development applied research focuses on creating or enhancing products, goods, or services to meet the needs of specific markets or industries. It involves innovation and design to improve existing offerings or introduce new solutions.

• Application: Commonly found in industries such as technology, pharmaceuticals, and manufacturing, R&D applied research supports the creation of cutting-edge products and processes, contributing to market competitiveness.

• Example: Conducting R&D to develop a new pharmaceutical drug with improved efficacy and fewer side effects.

3. Action Research:

• Purpose: Action research aims to address real-world problems by actively engaging with and observing everyday life and organisational dynamics. It involves a cyclical process of planning, acting, observing, and reflecting to bring about positive change.

• Application: Widely used in fields like education, healthcare, and organisational development, action research empowers practitioners to collaboratively solve problems, improve processes, and enhance outcomes in their specific contexts.

• Example: Implementing action research in a primary school to integrate AI-driven personalised learning platforms. By actively observing the impact of AI on student engagement, understanding, and academic performance, the research aims to refine teaching strategies and optimise the integration of AI in the classroom.

Step-by-Step Guide to Writing an Applied Research Paper

Writing an applied research paper involves a systematic and purposeful approach to address practical issues in a specific field. The following steps provide a comprehensive guide for crafting an effective applied research paper:

1. Selecting a Relevant Topic:

• Identify a specific problem or question within your field of study that requires practical solutions.

• Ensure your topic aligns with the goals of applied research, focusing on real-world issues and challenges.

2. Conducting a Thorough Literature Review:

• Explore existing literature related to your chosen topic to understand the current state of knowledge.

• Identify gaps or areas where applied research can contribute valuable insights.

3. Defining Clear Objectives and Hypotheses:

• Clearly outline the goals and hypotheses of your research to guide the direction of your investigation.

• Ensure that your objectives align with the practical implications you aim to address.

4. Choosing an Appropriate Research Methodology:

• Select a methodology that aligns with your research objectives. This could involve qualitative, quantitative, or mixed methods.

• Justify your choice of methodology and discuss how it will address the practical aspects of your research.

5. Collecting and Analysing Data:

• Implement your chosen methodology to collect relevant data. Ensure that your data collection methods are appropriate for the practical nature of your research.

• Thoroughly analyse the data using appropriate statistical or qualitative analysis techniques.

6. Presenting Results and Drawing Conclusions:

• Clearly present your findings, using tables, charts, or graphs if necessary.

• Connect your results back to your research objectives and draw meaningful conclusions that address the practical implications of your study.

7. Crafting a Well-structured Paper:

• Follow the specific format and guidelines provided by your university or institution.

• Typically, an applied research paper includes sections such as an abstract, introduction, literature review, methodology, results, discussion, and conclusion.

8. Providing Recommendations for Practice:

• Offer practical recommendations based on your research findings. Discuss how these recommendations can be implemented in real-world scenarios.

• Emphasise the actionable nature of your suggestions.

9. Acknowledging Limitations:

• Address any limitations or constraints in your research methodology or data collection.

• Acknowledge potential challenges and discuss their impact on the reliability and validity of your findings.

10. Citing Relevant Literature:

• Ensure proper citation of all sources used in your research. Follow the citation style recommended by your institution.

11. Reviewing and Revising:

• Proofread your paper for clarity, coherence, and grammatical accuracy.

• Seek feedback from peers or mentors and be open to making revisions based on constructive input.

By following these steps, researchers can produce applied research papers that not only contribute to academic knowledge but also offer practical solutions to real-world challenges in their respective fields.

In conclusion, the significance of applied research cannot be understated. With their practical orientation and real-world solutions, they serve as invaluable assets across industries, academia, and societal sectors. They are instrumental in addressing pressing challenges, guiding informed decision-making, fostering innovation, and contributing to positive changes in various fields. Applied research papers bridge the gap between theory and practice, providing actionable insights that enhance efficiency, optimise processes, and lead to tangible improvements. As agents of continuous learning and development, these papers play a pivotal role in shaping the future landscape of industries, organisations, and communities. In a world that demands pragmatic solutions, the importance of applied research papers lies in their ability to make a lasting and meaningful impact on the way we approach and solve real-world problems.

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What is Applied Research? Definition, Types, Examples

Appinio Research · 10.01.2024 · 35min read

Ever wondered how groundbreaking solutions to real-world challenges are developed, or how innovations come to life? Applied research holds the key. In this guide, we will delve deep into the world of applied research, uncovering its principles, methodologies, and real-world impact.  From harnessing cutting-edge technology to address healthcare crises to revolutionizing industries through data-driven insights, we'll explore the diverse domains where applied research thrives.

What is Applied Research?

Applied research is a systematic and organized inquiry aimed at solving specific real-world problems or improving existing practices, products, or services. Unlike basic research, which focuses on expanding general knowledge, applied research is all about using existing knowledge to address practical issues.

The primary purpose of applied research is to generate actionable insights and solutions that have a direct impact on practical situations. It seeks to bridge the gap between theory and practice by taking existing knowledge and applying it in real-world contexts. Applied research is driven by the need to address specific challenges, make informed decisions, and drive innovation in various domains.

Importance of Applied Research

Applied research holds immense significance across various fields and industries. Here's a list of reasons why applied research is crucial:

• Problem Solving:  Applied research provides effective solutions to real-world problems, improving processes, products, and services.
• Innovation:  It drives innovation by identifying opportunities for enhancement and developing practical solutions.
• Evidence-Based Decision-Making:  Policymakers and decision-makers rely on applied research findings to make informed choices and shape effective policies.
• Competitive Advantage:  In business, applied research can lead to improved products, increased efficiency, and a competitive edge in the market.
• Social Impact:  Applied research contributes to solving societal issues, from healthcare improvements to environmental sustainability.
• Technological Advancement:  In technology and engineering, it fuels advancements by applying scientific knowledge to practical applications.

Applied Research vs. Basic Research

Applied research differs from basic research in several key ways:

• Objectives:  Applied research aims to address specific practical problems or improve existing processes, while basic research seeks to expand general knowledge.
• Focus:  Applied research focuses on solving real-world challenges, whereas basic research explores fundamental principles and concepts.
• Applicability:  Applied research findings are directly applicable to practical situations, while basic research often lacks immediate practical applications.
• Immediate Impact:  Applied research has a more immediate impact on solving problems and improving practices, whereas basic research may have longer-term or indirect effects on knowledge and innovation.
• Research Questions:  Applied research formulates research questions related to practical issues, while basic research poses questions to explore theoretical or fundamental concepts.

Understanding these distinctions is essential for researchers, policymakers, and stakeholders in various fields, as it guides the choice of research approach and the expected outcomes of a research endeavor.

Types of Applied Research

Applied research encompasses various types, each tailored to specific objectives and domains. Understanding these types is essential for choosing the right approach to address real-world problems effectively. Here are some common types of applied research, each with its distinct focus and methodologies.

Evaluation Research

Purpose:  Evaluation research assesses the effectiveness, efficiency, and impact of programs, interventions, or policies. It aims to determine whether these initiatives meet their intended goals and objectives.

Methodology:  Researchers employ a range of quantitative and qualitative methods , including surveys, interviews, observations, and data analysis, to evaluate the outcomes and outcomes of programs or interventions.

Example:  Evaluating the impact of a public health campaign aimed at reducing smoking rates by analyzing pre- and post-campaign survey data on smoking habits and attitudes.

Action Research

Purpose:  Action research focuses on solving practical problems within a specific organizational or community context. It involves collaboration between researchers and practitioners to implement and assess solutions.

Methodology:  Action research is iterative and participatory, with researchers and stakeholders working together to identify problems, develop interventions, and assess their effectiveness. It often involves cycles of planning, action, reflection, and adjustment.

Example:  Teachers collaborating with researchers to improve classroom teaching methods and student outcomes by implementing and refining innovative teaching strategies.

Case Study Research

Purpose:   Case study research investigates a particular individual, organization, or situation in-depth to gain a comprehensive understanding of a specific phenomenon or issue.

Methodology:  Researchers collect and analyze a wealth of data, which may include interviews, documents, observations, and archival records. The goal is to provide a detailed and context-rich description of the case.

Example:  A detailed examination of a successful startup company's growth strategies and challenges, offering insights into factors contributing to its success.

Applied Experimental Research

Purpose:  Applied experimental research seeks to establish causal relationships between variables by manipulating one or more factors and observing their impact on outcomes. It helps determine cause-and-effect relationships in real-world settings.

Methodology:  Researchers conduct controlled experiments, similar to those in basic research, but within practical contexts. They manipulate variables and use statistical analysis to assess their effects on specific outcomes.

Example:  Testing the impact of different website designs on user engagement and conversion rates by randomly assigning visitors to various design versions and measuring their interactions.

Survey Research

Purpose:   Survey research involves collecting data from a sample of individuals or organizations to understand their opinions, attitudes, behaviors, or characteristics. It is commonly used to gather quantitative data on specific topics.

Methodology:  Researchers design surveys with carefully crafted questions and administer them to a representative sample of the target population . Statistical analysis is used to draw conclusions based on survey responses.

Example:  Conducting a national survey to assess public sentiment and preferences on environmental conservation initiatives and policies.

These types of applied research provide a framework for approaching real-world challenges systematically. Researchers can choose the most appropriate type based on their research goals, objectives, and the nature of the problem or phenomenon they seek to address. By selecting the right approach, applied researchers can generate valuable insights and practical solutions in various fields and disciplines.

How to Prepare for Applied Research?

In the preparatory phase of your applied research journey, you'll lay the groundwork for a successful study. This phase involves a series of crucial steps that will shape the direction and ethics of your research project.

Identifying Research Questions

One of the key starting points for any applied research endeavor is identifying the right research questions. Your research questions should be clear, specific, and directly related to the problem or issue you aim to address.

• Engage with Stakeholders:  Reach out to individuals or groups who are affected by or have an interest in the issue you're researching. Their perspectives can help you formulate relevant questions.
• Consider Feasibility:  Ensure that your research questions are feasible within your available resources, including time, budget, and access to data or participants.
• Prioritize Impact:  Focus on questions that have the potential to create meaningful change or provide valuable insights in your chosen field.

Formulating Hypotheses

Hypotheses serve as the guiding stars of your research, providing a clear direction for your investigation. Formulating hypotheses is a critical step that sets the stage for testing and validating your ideas.

• Testable Predictions:  Your hypotheses should be testable and capable of being proven or disproven through empirical research.
• Informed by Literature:  Base your hypotheses on existing knowledge and insights gained from the literature review. They should build upon what is already known and aim to expand that knowledge.
• Clarity and Precision:  Write your hypotheses in a clear and precise manner, specifying the expected relationship or outcome you intend to explore.

Literature Review

Conducting a thorough literature review is like embarking on a treasure hunt through existing knowledge in your field. It's a comprehensive exploration of what other researchers have already discovered and what gaps in knowledge still exist.

• Search Strategies:  Utilize academic databases, journals, books, and credible online sources to search for relevant literature.
• Analyze Existing Research:  Examine the findings, methodologies, and conclusions of previous studies related to your research topic.
• Identify Research Gaps:  Look for areas where current knowledge is insufficient or contradictory. These gaps will be the foundation for your own research.

Data Collection Methods

Selecting the proper data collection methods is crucial to gather the information needed to address your research questions. The choice of methods will depend on the nature of your research and the type of data you require.

• Quantitative vs. Qualitative:  Decide whether you will collect numerical data (quantitative) or focus on descriptive insights and narratives (qualitative).
• Survey Design :  If surveys are part of your data collection plan, carefully design questions that are clear, unbiased, and aligned with your research goals.
• Sampling Strategies:  Determine how you will select participants or data points to ensure representativeness and reliability.

Ethical Considerations

Ethical considerations are at the heart of responsible research. Ensuring that your study is conducted ethically and with integrity is paramount.

• Informed Consent:  Obtain informed consent from participants, ensuring they understand the purpose of the research, potential risks, and their right to withdraw at any time.
• Confidentiality:  Safeguard participants' personal information and ensure their anonymity when reporting findings.
• Minimizing Harm:  Take measures to mitigate any physical or emotional harm that participants may experience during the research process.
• Ethical Reporting:  Accurately represent your research findings, avoiding manipulation or selective reporting that may mislead readers or stakeholders.

By diligently addressing these aspects of research preparation, you are building a solid foundation for your applied research project, setting the stage for effective data collection and meaningful analysis in the subsequent phases of your study.

How to Design Your Research Study?

When it comes to applied research, the design of your study is paramount. It shapes the entire research process, from data collection to analysis and interpretation. In this section, we will explore the various elements that make up the foundation of your research design.

Research Design Types

Your choice of research design is like selecting the blueprint for your research project. Different research design types offer unique advantages and are suited for different research questions. Here are some common research design types:

• Experimental Design :  In this design, researchers manipulate one or more variables to observe their impact on outcomes. It allows for causal inference but may not always be feasible in applied research due to ethical or practical constraints.
• Descriptive Design:  This design aims to describe a phenomenon or population without manipulating variables. It is often used when researchers want to provide a snapshot of a situation or gain insights into a specific context.
• Correlational Design :  In this design, researchers examine relationships between variables without manipulating them. It helps identify associations but does not establish causation.
• Longitudinal Design:  Longitudinal studies involve collecting data from the same subjects over an extended period. They are valuable for tracking changes or developments over time.
• Cross-Sectional Design :  This design involves data collection from a diverse group of subjects at a single point in time. It's helpful in studying differences or variations among groups.

Sampling Methods

Sampling methods determine who or what will be included in your study. The choice of sampling method has a significant impact on the generalizability of your findings. Here are some standard sampling methods:

• Random Sampling:  This method involves selecting participants or data points entirely at random from the population. It ensures every element has an equal chance of being included, which enhances representativeness.
• Stratified Sampling:  In stratified sampling, the population is divided into subgroups or strata, and then random samples are drawn from each stratum. This method ensures that each subgroup is adequately represented.
• Convenience Sampling:  Researchers choose subjects or data points that are readily available and accessible. While convenient, this method may lead to sampling bias as it may not accurately represent the entire population.
• Purposive Sampling:  In purposive sampling, researchers deliberately select specific individuals or groups based on their expertise, experience, or relevance to the research topic. It is often used when seeking specialized knowledge.

Data Collection Tools

Selecting the right data collection tools is essential to gather accurate and relevant information. Your choice of tools will depend on the research design and objectives. Standard data collection tools include:

• Questionnaires and Surveys:  These structured instruments use standardized questions to gather data from participants. They are suitable for collecting large amounts of quantitative data.
• Interviews:   Interviews can be structured, semi-structured, or unstructured. They provide an opportunity to gather in-depth, qualitative insights from participants.
• Observation:  Direct observation involves systematically watching and recording behaviors or events. It's valuable for studying behaviors or phenomena in their natural context.
• Secondary Data :  Researchers can also utilize existing data sources, such as government reports, databases, or historical records, for their research.

Variables and Measurement

Defining variables and choosing appropriate measurement methods is crucial for ensuring the reliability and validity of your research. Variables are characteristics, phenomena, or factors that can change or vary in your study. They can be categorized into:

• Independent Variables:  These are the variables you manipulate or control in your study to observe their effects on other variables.
• Dependent Variables:  These are the variables you measure to assess the impact of the independent variables.

Choosing the right measurement techniques, scales, or instruments is essential to accurately quantify variables and collect valid data. It's crucial to establish clear operational definitions for each variable to ensure consistency in measurement.

Data Analysis Techniques

Once you have collected your data, the next step is to analyze it effectively. Data analysis involves:

• Data Cleaning:  Removing any errors, inconsistencies, or outliers from your dataset to ensure data quality.
• Statistical Analysis :  Depending on your research design and data type, you may use various statistical techniques such as regression analysis , t-tests, ANOVA, or chi-square tests.
• Qualitative Analysis:  For qualitative data, techniques like thematic analysis, content analysis, or discourse analysis help uncover patterns and themes.
• Data Visualization:  Using graphs, charts, and visual representations to present your data effectively.

Selecting the appropriate analysis techniques depends on your research questions, data type, and objectives. Proper data analysis is crucial for drawing meaningful conclusions and insights from your research.

With a solid understanding of research design, sampling methods, data collection tools, variables, and measurement, you are well-equipped to embark on your applied research journey. These elements lay the groundwork for collecting valuable data and conducting meaningful analyses in the subsequent phases of your study.

How to Conduct Applied Research?

Now that you've prepared and designed your research study, it's time to delve into the practical aspects of conducting applied research. This phase involves the execution of your research plan, from collecting data to drawing meaningful conclusions. Let's explore the critical components in this stage.

Data Collection Phase

The data collection phase is where your research plan comes to life. It's a crucial step that requires precision and attention to detail to ensure the quality and reliability of your data.

• Implement Data Collection Methods:   Execute the data collection methods you've chosen, whether they involve surveys, interviews, observations, or the analysis of existing datasets.
• Maintain Consistency:  Ensure that data collection is carried out consistently according to your research design and protocols. Minimize any variations or deviations that may introduce bias .
• Document the Process:  Keep thorough records of the data collection process. Note any challenges, unexpected occurrences, or deviations from your original plan. Documentation is essential for transparency and replication.
• Quality Assurance:  Continuously monitor the quality of the data you collect. Check for errors, missing information, or outliers. Implement data validation and cleaning procedures to address any issues promptly.
• Participant Engagement:  If your research involves human participants, maintain open and respectful communication with them. Address any questions or concerns and ensure participants' comfort and willingness to participate.

Data Analysis Phase

Once you've collected your data, it's time to make sense of the information you've gathered. The data analysis phase involves transforming raw data into meaningful insights and patterns.

• Data Preparation:  Start by organizing and cleaning your data. This includes dealing with missing values, outliers, and ensuring data consistency.
• Selecting Analysis Methods:  Depending on your research design and data type, choose the appropriate statistical or qualitative analysis methods. Common techniques include regression analysis , content analysis, or thematic coding .
• Conducting Analysis:  Perform the chosen analysis systematically and according to established protocols. Ensure that your analysis is reproducible by documenting every step.
• Interpreting Results:  Interpretation involves making sense of your findings in the context of your research questions and hypotheses. Consider the statistical significance of the results and any practical implications they may have.
• Visualization:  Create visual representations of your data, such as graphs, charts, or tables, to convey your findings effectively. Visualizations make complex data more accessible to a broader audience.

Interpretation of Results

Interpreting research results is a critical step that bridges the gap between data analysis and drawing conclusions. This process involves making sense of the patterns and insights that emerge from your analysis.

• Relate to Hypotheses:  Determine whether your results support or refute your hypotheses. Be prepared to explain any unexpected findings.
• Contextualize Findings:  Consider the broader context in which your research takes place. How do your results fit into the larger body of knowledge in your field?
• Identify Patterns :  Highlight significant trends, correlations, or relationships you've uncovered. Discuss their practical implications and relevance.
• Acknowledge Limitations:  Be transparent about any limitations in your study that may affect the interpretation of results. This includes sample size, data quality, and potential biases.

Drawing Conclusions

Drawing conclusions is the ultimate goal of your research. It involves synthesizing your findings and answering the research questions you initially posed.

• Answer Research Questions:  Explicitly address the research questions you formulated at the beginning of your study. State whether your findings confirm or challenge your initial hypotheses.
• Highlight Insights:  Emphasize the key insights and contributions of your research. Discuss the practical implications of your findings and their relevance to the field.
• Recommend Actions:  Based on your conclusions, suggest practical steps, recommendations, or future research directions. How can your research contribute to addressing the problem or challenge you investigated?
• Consider Implications:  Reflect on the broader implications of your research for stakeholders, policymakers, or practitioners in your field.

Common Pitfalls to Avoid

During the data collection, analysis, interpretation, and conclusion-drawing phases, it's essential to be aware of common pitfalls that can affect the quality and integrity of your research.

• Sampling Bias :  Ensure that your sample is representative of the population you intend to study. Address any bias that may have been introduced during data collection.
• Data Manipulation:  Avoid manipulating or selectively reporting data to fit preconceived notions. Maintain transparency in your analysis and reporting.
• Overinterpretation:  Be cautious of drawing overly broad conclusions based on limited data. Acknowledge the limitations of your study.
• Ignoring Ethical Considerations:  Continuously uphold ethical standards in your research, from data collection to reporting. Protect participants' rights and privacy.
• Lack of Validation:  Ensure that the methods and tools you use for data collection and analysis are valid and reliable. Validation helps establish the credibility of your findings.

By navigating the data collection, analysis, interpretation, and conclusion-drawing phases with care and attention to detail, you'll be well-prepared to confidently share your research findings and contribute to advancing knowledge in your field.

How to Report Applied Research Results?

Now that you've conducted your applied research and drawn meaningful conclusions, it's time to share your insights with the world. Effective reporting and communication are crucial to ensure that your research has a real impact and contributes to the broader knowledge base.

Writing Research Reports

Writing a comprehensive research report is the cornerstone of communicating your findings. It provides a detailed account of your research process, results, and conclusions. Here's what you need to consider:

Structure of a Research Report

• Title:  Create a concise, informative title that reflects the essence of your research.
• Abstract:  Summarize your research in a clear and concise manner, highlighting key objectives, methods, results, and conclusions.
• Introduction:  Provide an overview of your research topic, objectives, significance, and research questions.
• Literature Review:  Summarize relevant literature and identify gaps in existing knowledge that your research addresses.
• Methodology:  Describe your research design, sampling methods, data collection tools, and data analysis techniques.
• Results:  Present your findings using tables, charts, and narratives. Be transparent and objective in reporting your results.
• Discussion:  Interpret your results, discuss their implications, and relate them to your research questions and hypotheses.
• Conclusion:  Summarize your main findings, their significance, and the implications for future research or practical applications.
• References:  Cite all sources and studies you referenced in your report using a consistent citation style (e.g., APA, MLA).

Writing Tips

• Use clear and concise language, avoiding jargon or overly technical terms.
• Organize your report logically, with headings and subheadings for easy navigation.
• Provide evidence and data to support your claims and conclusions.
• Consider your target audience and tailor the report to their level of expertise and interest.

Creating Visualizations

Visualizations are powerful tools for conveying complex data and making your research findings more accessible. Here are some types of visualizations commonly used in research reports:

Charts and Graphs

• Bar Charts:  Ideal for comparing categories or groups.
• Line Charts:  Effective for showing trends or changes over time.
• Pie Charts:  Useful for displaying proportions or percentages.
• Data Tables:  Present numerical data in an organized format.
• Cross-tabulations:  Show relationships between variables.

Diagrams and Maps

• Flowcharts:  Visualize processes or workflows.
• Concept Maps:  Illustrate connections between concepts.
• Geographic Maps:  Display spatial data and patterns.

When creating visualizations:

• Choose the correct type of visualization for your data and research questions.
• Ensure that visualizations are labeled, clear, and easy to understand.
• Provide context and explanations to help readers interpret the visuals.

Presenting Your Research

Presenting your research to an audience is an opportunity to engage, educate, and inspire. Whether it's through a conference presentation, seminar, or webinar, effective communication is vital.

• Know Your Audience:  Tailor your presentation to the interests and expertise of your audience.
• Practice:  Rehearse your presentation to ensure a smooth delivery and confident demeanor.
• Use Visual Aids:  Enhance your presentation with visual aids such as slides, images, or videos.
• Engage with Questions:  Encourage questions and discussions to foster interaction and clarify points.
• Stay within Time Limits:  Respect time constraints and stay on schedule.

Peer Review Process

Before your research is published, it typically undergoes a peer review process. This involves experts in your field evaluating the quality, validity, and significance of your work. The peer review process aims to ensure the integrity and credibility of your research.

• Submission:  Submit your research manuscript to a journal or conference for review.
• Editorial Review:  The editorial team assesses your submission's fit with the journal's scope and may conduct an initial review for quality and compliance.
• Peer Review:  Your manuscript is sent to peer reviewers who evaluate it for methodology, validity, significance, and adherence to ethical standards.
• Feedback and Revision:  Based on reviewers' feedback, you may be asked to revise and improve your research.
• Acceptance or Rejection:  After revisions, the manuscript is reevaluated, and a decision is made regarding publication.

Publishing Your Research

Publishing your research is the final step in sharing your findings with the broader scientific community. It allows others to access and build upon your work. Consider the following when choosing where to publish:

• Journal Selection:  Choose a reputable journal that aligns with your research field and target audience.
• Review Process:  Understand the journal's peer review process and requirements for submission.
• Open Access:  Consider whether you want your research to be open access, freely accessible to all.

Once published, actively promote your research through academic networks, conferences, and social media to maximize its reach and impact.

By effectively reporting and communicating your research findings, you contribute to the advancement of knowledge, inspire others, and ensure that your hard work has a meaningful impact on your field and beyond.

Applied Research Examples

To provide a deeper understanding of applied research's impact and relevance, let's delve into specific real-world examples that demonstrate how this type of research has addressed pressing challenges and improved our lives in tangible ways.

Applied Medical Research: mRNA Vaccines

Example:  mRNA (messenger RNA) vaccine technology, exemplified by the COVID-19 vaccines developed by Pfizer-BioNTech and Moderna, is a remarkable achievement in the field of applied medical research.

Applied researchers in this domain utilized mRNA technology to create vaccines that provide immunity against the SARS-CoV-2 virus. Unlike traditional vaccines, which use weakened or inactivated viruses, mRNA vaccines instruct cells to produce a harmless spike protein found on the virus's surface. The immune system then recognizes this protein and mounts a defense, preparing the body to combat the actual virus.

Impact:  The rapid development and deployment of mRNA vaccines during the COVID-19 pandemic have been groundbreaking. They've played a crucial role in controlling the spread of the virus and saving countless lives worldwide. This example underscores how applied research can revolutionize healthcare and respond swiftly to global health crises.

Environmental Science and Applied Research: Ocean Cleanup

Example:  The Ocean Cleanup Project, founded by Boyan Slat, is an ambitious endeavor rooted in applied research to combat plastic pollution in the world's oceans.

This project employs innovative technology, such as large-scale floating barriers and autonomous systems, to collect and remove plastic debris from the ocean. Applied researchers have played a pivotal role in designing, testing, and optimizing these systems to make them efficient and environmentally friendly.

Impact:  The Ocean Cleanup Project is a testament to the power of applied research in addressing pressing environmental challenges. By removing plastic waste from the oceans, it mitigates harm to marine ecosystems and raises awareness about the urgent need for sustainable waste management.

Business and Applied Research: E-commerce Personalization

Example:   E-commerce giants like Amazon and Netflix use applied research to develop sophisticated personalization algorithms that tailor product recommendations and content to individual users.

Applied researchers in data science and machine learning analyze user behavior, preferences, and historical data to create recommendation systems. These algorithms utilize predictive analytics to suggest products, movies, or shows that align with a user's interests.

Impact:  The application of research-driven personalization has transformed the e-commerce and streaming industries. It enhances user experiences, increases customer engagement, and drives sales by presenting customers with products or content they are more likely to enjoy.

Education and Applied Research: Flipped Classroom Model

Example:  The Flipped Classroom Model is an applied research-based teaching approach that has gained popularity in education.

In this model, instructors leverage technology to deliver instructional content (such as video lectures) outside of class, allowing in-class time for active learning, discussions, and problem-solving. Applied research has informed the design and implementation of this pedagogical approach.

Impact:  The Flipped Classroom Model has shown promise in enhancing student engagement and learning outcomes. It capitalizes on research findings about how students learn best, emphasizing active participation and collaborative learning.

Agriculture and Applied Research: Precision Agriculture

Example:  Precision agriculture employs data-driven technology and applied research to optimize farming practices.

Farmers utilize satellite imagery, sensors, and data analytics to monitor crop conditions, soil health, and weather patterns. Applied research guides the development of precision farming techniques, enabling more efficient resource allocation and reducing environmental impact.

Impact:  Precision agriculture increases crop yields, conserves resources (such as water and fertilizer), and minimizes the ecological footprint of farming. This approach contributes to sustainable and economically viable agriculture.

These real-world examples underscore the versatility and impact of applied research across diverse domains. From healthcare and environmental conservation to business, education, and agriculture, applied research continually drives innovation, addresses critical challenges, and enhances the quality of life for individuals and communities worldwide.

Conclusion for Applied Research

Applied research is a powerful force for solving real-world problems and driving progress. By applying existing knowledge and innovative thinking, we can address healthcare challenges, protect our environment, improve businesses, enhance education, and revolutionize agriculture. Through this guide, you've gained valuable insights into the what, why, and how of applied research, unlocking the potential to make a positive impact in your field. So, go forth, conduct meaningful research, and be part of the solution to the world's most pressing issues. Remember, applied research is not just a concept; it's a practical approach that empowers individuals and teams to create solutions that matter. As you embark on your own applied research endeavors, keep the spirit of inquiry alive, remain open to new ideas, and never underestimate the transformative power of knowledge put into action.

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Research Topics & Ideas: Education

170+ Research Ideas To Fast-Track Your Project

If you’re just starting out exploring education-related topics for your dissertation, thesis or research project, you’ve come to the right place. In this post, we’ll help kickstart your research topic ideation process by providing a hearty list of research topics and ideas , including examples from actual dissertations and theses..

PS – This is just the start…

We know it’s exciting to run through a list of research topics, but please keep in mind that this list is just a starting point . To develop a suitable education-related research topic, you’ll need to identify a clear and convincing research gap , and a viable plan of action to fill that gap.

If this sounds foreign to you, check out our free research topic webinar that explores how to find and refine a high-quality research topic, from scratch. Alternatively, if you’d like hands-on help, consider our 1-on-1 coaching service .

Overview: Education Research Topics

• How to find a research topic (video)
• List of 50+ education-related research topics/ideas
• List of 120+ level-specific research topics 
• Examples of actual dissertation topics in education
• Tips to fast-track your topic ideation (video)
• Free Webinar : Topic Ideation 101
• Where to get extra help

Education-Related Research Topics & Ideas

Below you’ll find a list of education-related research topics and idea kickstarters. These are fairly broad and flexible to various contexts, so keep in mind that you will need to refine them a little. Nevertheless, they should inspire some ideas for your project.

• The impact of school funding on student achievement
• The effects of social and emotional learning on student well-being
• The effects of parental involvement on student behaviour
• The impact of teacher training on student learning
• The impact of classroom design on student learning
• The impact of poverty on education
• The use of student data to inform instruction
• The role of parental involvement in education
• The effects of mindfulness practices in the classroom
• The use of technology in the classroom
• The role of critical thinking in education
• The use of formative and summative assessments in the classroom
• The use of differentiated instruction in the classroom
• The use of gamification in education
• The effects of teacher burnout on student learning
• The impact of school leadership on student achievement
• The effects of teacher diversity on student outcomes
• The role of teacher collaboration in improving student outcomes
• The implementation of blended and online learning
• The effects of teacher accountability on student achievement
• The effects of standardized testing on student learning
• The effects of classroom management on student behaviour
• The effects of school culture on student achievement
• The use of student-centred learning in the classroom
• The impact of teacher-student relationships on student outcomes
• The achievement gap in minority and low-income students
• The use of culturally responsive teaching in the classroom
• The impact of teacher professional development on student learning
• The use of project-based learning in the classroom
• The effects of teacher expectations on student achievement
• The use of adaptive learning technology in the classroom
• The impact of teacher turnover on student learning
• The effects of teacher recruitment and retention on student learning
• The impact of early childhood education on later academic success
• The impact of parental involvement on student engagement
• The use of positive reinforcement in education
• The impact of school climate on student engagement
• The role of STEM education in preparing students for the workforce
• The effects of school choice on student achievement
• The use of technology in the form of online tutoring

Level-Specific Research Topics

Looking for research topics for a specific level of education? We’ve got you covered. Below you can find research topic ideas for primary, secondary and tertiary-level education contexts. Click the relevant level to view the respective list.

Research Topics: Pick An Education Level

Primary education.

• Investigating the effects of peer tutoring on academic achievement in primary school
• Exploring the benefits of mindfulness practices in primary school classrooms
• Examining the effects of different teaching strategies on primary school students’ problem-solving skills
• The use of storytelling as a teaching strategy in primary school literacy instruction
• The role of cultural diversity in promoting tolerance and understanding in primary schools
• The impact of character education programs on moral development in primary school students
• Investigating the use of technology in enhancing primary school mathematics education
• The impact of inclusive curriculum on promoting equity and diversity in primary schools
• The impact of outdoor education programs on environmental awareness in primary school students
• The influence of school climate on student motivation and engagement in primary schools
• Investigating the effects of early literacy interventions on reading comprehension in primary school students
• The impact of parental involvement in school decision-making processes on student achievement in primary schools
• Exploring the benefits of inclusive education for students with special needs in primary schools
• Investigating the effects of teacher-student feedback on academic motivation in primary schools
• The role of technology in developing digital literacy skills in primary school students
• Effective strategies for fostering a growth mindset in primary school students
• Investigating the role of parental support in reducing academic stress in primary school children
• The role of arts education in fostering creativity and self-expression in primary school students
• Examining the effects of early childhood education programs on primary school readiness
• Examining the effects of homework on primary school students’ academic performance
• The role of formative assessment in improving learning outcomes in primary school classrooms
• The impact of teacher-student relationships on academic outcomes in primary school
• Investigating the effects of classroom environment on student behavior and learning outcomes in primary schools
• Investigating the role of creativity and imagination in primary school curriculum
• The impact of nutrition and healthy eating programs on academic performance in primary schools
• The impact of social-emotional learning programs on primary school students’ well-being and academic performance
• The role of parental involvement in academic achievement of primary school children
• Examining the effects of classroom management strategies on student behavior in primary school
• The role of school leadership in creating a positive school climate Exploring the benefits of bilingual education in primary schools
• The effectiveness of project-based learning in developing critical thinking skills in primary school students
• The role of inquiry-based learning in fostering curiosity and critical thinking in primary school students
• The effects of class size on student engagement and achievement in primary schools
• Investigating the effects of recess and physical activity breaks on attention and learning in primary school
• Exploring the benefits of outdoor play in developing gross motor skills in primary school children
• The effects of educational field trips on knowledge retention in primary school students
• Examining the effects of inclusive classroom practices on students’ attitudes towards diversity in primary schools
• The impact of parental involvement in homework on primary school students’ academic achievement
• Investigating the effectiveness of different assessment methods in primary school classrooms
• The influence of physical activity and exercise on cognitive development in primary school children
• Exploring the benefits of cooperative learning in promoting social skills in primary school students

Secondary Education

• Investigating the effects of school discipline policies on student behavior and academic success in secondary education
• The role of social media in enhancing communication and collaboration among secondary school students
• The impact of school leadership on teacher effectiveness and student outcomes in secondary schools
• Investigating the effects of technology integration on teaching and learning in secondary education
• Exploring the benefits of interdisciplinary instruction in promoting critical thinking skills in secondary schools
• The impact of arts education on creativity and self-expression in secondary school students
• The effectiveness of flipped classrooms in promoting student learning in secondary education
• The role of career guidance programs in preparing secondary school students for future employment
• Investigating the effects of student-centered learning approaches on student autonomy and academic success in secondary schools
• The impact of socio-economic factors on educational attainment in secondary education
• Investigating the impact of project-based learning on student engagement and academic achievement in secondary schools
• Investigating the effects of multicultural education on cultural understanding and tolerance in secondary schools
• The influence of standardized testing on teaching practices and student learning in secondary education
• Investigating the effects of classroom management strategies on student behavior and academic engagement in secondary education
• The influence of teacher professional development on instructional practices and student outcomes in secondary schools
• The role of extracurricular activities in promoting holistic development and well-roundedness in secondary school students
• Investigating the effects of blended learning models on student engagement and achievement in secondary education
• The role of physical education in promoting physical health and well-being among secondary school students
• Investigating the effects of gender on academic achievement and career aspirations in secondary education
• Exploring the benefits of multicultural literature in promoting cultural awareness and empathy among secondary school students
• The impact of school counseling services on student mental health and well-being in secondary schools
• Exploring the benefits of vocational education and training in preparing secondary school students for the workforce
• The role of digital literacy in preparing secondary school students for the digital age
• The influence of parental involvement on academic success and well-being of secondary school students
• The impact of social-emotional learning programs on secondary school students’ well-being and academic success
• The role of character education in fostering ethical and responsible behavior in secondary school students
• Examining the effects of digital citizenship education on responsible and ethical technology use among secondary school students
• The impact of parental involvement in school decision-making processes on student outcomes in secondary schools
• The role of educational technology in promoting personalized learning experiences in secondary schools
• The impact of inclusive education on the social and academic outcomes of students with disabilities in secondary schools
• The influence of parental support on academic motivation and achievement in secondary education
• The role of school climate in promoting positive behavior and well-being among secondary school students
• Examining the effects of peer mentoring programs on academic achievement and social-emotional development in secondary schools
• Examining the effects of teacher-student relationships on student motivation and achievement in secondary schools
• Exploring the benefits of service-learning programs in promoting civic engagement among secondary school students
• The impact of educational policies on educational equity and access in secondary education
• Examining the effects of homework on academic achievement and student well-being in secondary education
• Investigating the effects of different assessment methods on student performance in secondary schools
• Examining the effects of single-sex education on academic performance and gender stereotypes in secondary schools
• The role of mentoring programs in supporting the transition from secondary to post-secondary education

Tertiary Education

• The role of student support services in promoting academic success and well-being in higher education
• The impact of internationalization initiatives on students’ intercultural competence and global perspectives in tertiary education
• Investigating the effects of active learning classrooms and learning spaces on student engagement and learning outcomes in tertiary education
• Exploring the benefits of service-learning experiences in fostering civic engagement and social responsibility in higher education
• The influence of learning communities and collaborative learning environments on student academic and social integration in higher education
• Exploring the benefits of undergraduate research experiences in fostering critical thinking and scientific inquiry skills
• Investigating the effects of academic advising and mentoring on student retention and degree completion in higher education
• The role of student engagement and involvement in co-curricular activities on holistic student development in higher education
• The impact of multicultural education on fostering cultural competence and diversity appreciation in higher education
• The role of internships and work-integrated learning experiences in enhancing students’ employability and career outcomes
• Examining the effects of assessment and feedback practices on student learning and academic achievement in tertiary education
• The influence of faculty professional development on instructional practices and student outcomes in tertiary education
• The influence of faculty-student relationships on student success and well-being in tertiary education
• The impact of college transition programs on students’ academic and social adjustment to higher education
• The impact of online learning platforms on student learning outcomes in higher education
• The impact of financial aid and scholarships on access and persistence in higher education
• The influence of student leadership and involvement in extracurricular activities on personal development and campus engagement
• Exploring the benefits of competency-based education in developing job-specific skills in tertiary students
• Examining the effects of flipped classroom models on student learning and retention in higher education
• Exploring the benefits of online collaboration and virtual team projects in developing teamwork skills in tertiary students
• Investigating the effects of diversity and inclusion initiatives on campus climate and student experiences in tertiary education
• The influence of study abroad programs on intercultural competence and global perspectives of college students
• Investigating the effects of peer mentoring and tutoring programs on student retention and academic performance in tertiary education
• Investigating the effectiveness of active learning strategies in promoting student engagement and achievement in tertiary education
• Investigating the effects of blended learning models and hybrid courses on student learning and satisfaction in higher education
• The role of digital literacy and information literacy skills in supporting student success in the digital age
• Investigating the effects of experiential learning opportunities on career readiness and employability of college students
• The impact of e-portfolios on student reflection, self-assessment, and showcasing of learning in higher education
• The role of technology in enhancing collaborative learning experiences in tertiary classrooms
• The impact of research opportunities on undergraduate student engagement and pursuit of advanced degrees
• Examining the effects of competency-based assessment on measuring student learning and achievement in tertiary education
• Examining the effects of interdisciplinary programs and courses on critical thinking and problem-solving skills in college students
• The role of inclusive education and accessibility in promoting equitable learning experiences for diverse student populations
• The role of career counseling and guidance in supporting students’ career decision-making in tertiary education
• The influence of faculty diversity and representation on student success and inclusive learning environments in higher education

Education-Related Dissertations & Theses

While the ideas we’ve presented above are a decent starting point for finding a research topic in education, they are fairly generic and non-specific. So, it helps to look at actual dissertations and theses in the education space to see how this all comes together in practice.

Below, we’ve included a selection of education-related research projects to help refine your thinking. These are actual dissertations and theses, written as part of Master’s and PhD-level programs, so they can provide some useful insight as to what a research topic looks like in practice.

• From Rural to Urban: Education Conditions of Migrant Children in China (Wang, 2019)
• Energy Renovation While Learning English: A Guidebook for Elementary ESL Teachers (Yang, 2019)
• A Reanalyses of Intercorrelational Matrices of Visual and Verbal Learners’ Abilities, Cognitive Styles, and Learning Preferences (Fox, 2020)
• A study of the elementary math program utilized by a mid-Missouri school district (Barabas, 2020)
• Instructor formative assessment practices in virtual learning environments : a posthumanist sociomaterial perspective (Burcks, 2019)
• Higher education students services: a qualitative study of two mid-size universities’ direct exchange programs (Kinde, 2020)
• Exploring editorial leadership : a qualitative study of scholastic journalism advisers teaching leadership in Missouri secondary schools (Lewis, 2020)
• Selling the virtual university: a multimodal discourse analysis of marketing for online learning (Ludwig, 2020)
• Advocacy and accountability in school counselling: assessing the use of data as related to professional self-efficacy (Matthews, 2020)
• The use of an application screening assessment as a predictor of teaching retention at a midwestern, K-12, public school district (Scarbrough, 2020)
• Core values driving sustained elite performance cultures (Beiner, 2020)
• Educative features of upper elementary Eureka math curriculum (Dwiggins, 2020)
• How female principals nurture adult learning opportunities in successful high schools with challenging student demographics (Woodward, 2020)
• The disproportionality of Black Males in Special Education: A Case Study Analysis of Educator Perceptions in a Southeastern Urban High School (McCrae, 2021)

As you can see, these research topics are a lot more focused than the generic topic ideas we presented earlier. So, in order for you to develop a high-quality research topic, you’ll need to get specific and laser-focused on a specific context with specific variables of interest.  In the video below, we explore some other important things you’ll need to consider when crafting your research topic.

Get 1-On-1 Help

If you’re still unsure about how to find a quality research topic within education, check out our Research Topic Kickstarter service, which is the perfect starting point for developing a unique, well-justified research topic.

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53 Comments

This is an helpful tool 🙏

Special education

Really appreciated by this . It is the best platform for research related items

Research title related to students

Good idea I’m going to teach my colleagues

You can find our list of nursing-related research topic ideas here: https://gradcoach.com/research-topics-nursing/

Write on action research topic, using guidance and counseling to address unwanted teenage pregnancy in school

Thanks a lot

I learned a lot from this site, thank you so much!

Thank you for the information.. I would like to request a topic based on school major in social studies

parental involvement and students academic performance

Science education topics?

How about School management and supervision pls.?

Hi i am an Deputy Principal in a primary school. My wish is to srudy foe Master’s degree in Education.Please advice me on which topic can be relevant for me. Thanks.

Every topic proposed above on primary education is a starting point for me. I appreciate immensely the team that has sat down to make a detail of these selected topics just for beginners like us. Be blessed.

Kindly help me with the research questions on the topic” Effects of workplace conflict on the employees’ job performance”. The effects can be applicable in every institution,enterprise or organisation.

Greetings, I am a student majoring in Sociology and minoring in Public Administration. I’m considering any recommended research topic in the field of Sociology.

I’m a student pursuing Mphil in Basic education and I’m considering any recommended research proposal topic in my field of study

Kindly help me with a research topic in educational psychology. Ph.D level. Thank you.

Project-based learning is a teaching/learning type,if well applied in a classroom setting will yield serious positive impact. What can a teacher do to implement this in a disadvantaged zone like “North West Region of Cameroon ( hinterland) where war has brought about prolonged and untold sufferings on the indegins?

I wish to get help on topics of research on educational administration

I wish to get help on topics of research on educational administration PhD level

I am also looking for such type of title

I am a student of undergraduate, doing research on how to use guidance and counseling to address unwanted teenage pregnancy in school

the topics are very good regarding research & education .

Can i request your suggestion topic for my Thesis about Teachers as an OFW. thanx you

Would like to request for suggestions on a topic in Economics of education,PhD level

Would like to request for suggestions on a topic in Economics of education

Hi 👋 I request that you help me with a written research proposal about education the format

l would like to request suggestions on a topic in managing teaching and learning, PhD level (educational leadership and management)

request suggestions on a topic in managing teaching and learning, PhD level (educational leadership and management)

I would to inquire on research topics on Educational psychology, Masters degree

I am PhD student, I am searching my Research topic, It should be innovative,my area of interest is online education,use of technology in education

request suggestion on topic in masters in medical education .

Look at British Library as they keep a copy of all PhDs in the UK Core.ac.uk to access Open University and 6 other university e-archives, pdf downloads mostly available, all free.

May I also ask for a topic based on mathematics education for college teaching, please?

Please I am a masters student of the department of Teacher Education, Faculty of Education Please I am in need of proposed project topics to help with my final year thesis

Am a PhD student in Educational Foundations would like a sociological topic. Thank

please i need a proposed thesis project regardging computer science

Greetings and Regards I am a doctoral student in the field of philosophy of education. I am looking for a new topic for my thesis. Because of my work in the elementary school, I am looking for a topic that is from the field of elementary education and is related to the philosophy of education.

Masters student in the field of curriculum, any ideas of a research topic on low achiever students

In the field of curriculum any ideas of a research topic on deconalization in contextualization of digital teaching and learning through in higher education

Amazing guidelines

I am a graduate with two masters. 1) Master of arts in religious studies and 2) Master in education in foundations of education. I intend to do a Ph.D. on my second master’s, however, I need to bring both masters together through my Ph.D. research. can I do something like, ” The contribution of Philosophy of education for a quality religion education in Kenya”? kindly, assist and be free to suggest a similar topic that will bring together the two masters. thanks in advance

Hi, I am an Early childhood trainer as well as a researcher, I need more support on this topic: The impact of early childhood education on later academic success.

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The Value of Applied Research: Retrieval Practice Improves Classroom Learning and Recommendations from a Teacher, a Principal, and a Scientist

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• Published: 19 August 2012
• Volume 24 , pages 437–448, ( 2012 )

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• Pooja K. Agarwal 1 ,
• Patrice M. Bain 2 &
• Roger W. Chamberlain 3  

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Over the course of a 5-year applied research project with more than 1,400 middle school students, evidence from a number of studies revealed that retrieval practice in authentic classroom settings improves long-term learning (Agarwal et al. 2009 ; McDaniel et al. , Journal of Educational Psychology 103:399–414, 2011 ; McDaniel et al. 2012 ; Roediger et al. , Journal of Experimental Psychology: Applied 17:382–395, 2011a ). Retrieval practice, or the use of quizzes and exams to engage and enhance retrieval processes, has been widely established as an effective strategy for facilitating learning in laboratory settings (e.g., Roediger et al. 2011c ). In this article, we review recent findings from applied research that demonstrate that retrieval practice enhances long-term classroom learning, delayed quizzes are particularly potent for retention, quizzes benefit students’ transfer to novel quiz items, and quizzes with feedback improve students’ learning and metacognitive awareness. In addition to generating evidence to support retrieval-based learning, these applied research studies also enhanced the professional development of the teachers, administrators, and scientists involved in the project. In this article, it is our hope that by sharing what we have learned from a variety of perspectives, applied scientific research in K-12 classrooms will continue to be explored and generated at local, state, and national levels, improving student learning and educational decision-making.

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Acknowledgments

This research was supported by the Institute of Education Sciences, U.S. Department of Education through grants R305H060080 and R305A110550 awarded to Washington University in St. Louis. The opinions expressed are those of the authors and do not represent the views of the Institute or the US Department of Education.

We thank our colleagues Henry L. Roediger, III, Mark A. McDaniel, and Kathleen B. McDermott for their contributions to the research reviewed, as well as participating students, teachers, and parents from Columbia, IL, USA. We also thank an anonymous reviewer for helpful comments on an earlier version of this manuscript.

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Agarwal, P.K., Bain, P.M. & Chamberlain, R.W. The Value of Applied Research: Retrieval Practice Improves Classroom Learning and Recommendations from a Teacher, a Principal, and a Scientist. Educ Psychol Rev 24 , 437–448 (2012). https://doi.org/10.1007/s10648-012-9210-2

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Research and trends in STEM education: a systematic review of journal publications

• Yeping Li 1 ,
• Ke Wang 2 ,
• Yu Xiao 1 &
• Jeffrey E. Froyd 3  

International Journal of STEM Education volume  7 , Article number:  11 ( 2020 ) Cite this article

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With the rapid increase in the number of scholarly publications on STEM education in recent years, reviews of the status and trends in STEM education research internationally support the development of the field. For this review, we conducted a systematic analysis of 798 articles in STEM education published between 2000 and the end of 2018 in 36 journals to get an overview about developments in STEM education scholarship. We examined those selected journal publications both quantitatively and qualitatively, including the number of articles published, journals in which the articles were published, authorship nationality, and research topic and methods over the years. The results show that research in STEM education is increasing in importance internationally and that the identity of STEM education journals is becoming clearer over time.

Introduction

A recent review of 144 publications in the International Journal of STEM Education ( IJ - STEM ) showed how scholarship in science, technology, engineering, and mathematics (STEM) education developed between August 2014 and the end of 2018 through the lens of one journal (Li, Froyd, & Wang, 2019 ). The review of articles published in only one journal over a short period of time prompted the need to review the status and trends in STEM education research internationally by analyzing articles published in a wider range of journals over a longer period of time.

With global recognition of the growing importance of STEM education, we have witnessed the urgent need to support research and scholarship in STEM education (Li, 2014 , 2018a ). Researchers and educators have responded to this on-going call and published their scholarly work through many different publication outlets including journals, books, and conference proceedings. A simple Google search with the term “STEM,” “STEM education,” or “STEM education research” all returned more than 450,000,000 items. Such voluminous information shows the rapidly evolving and vibrant field of STEM education and sheds light on the volume of STEM education research. In any field, it is important to know and understand the status and trends in scholarship for the field to develop and be appropriately supported. This applies to STEM education.

Conducting systematic reviews to explore the status and trends in specific disciplines is common in educational research. For example, researchers surveyed the historical development of research in mathematics education (Kilpatrick, 1992 ) and studied patterns in technology usage in mathematics education (Bray & Tangney, 2017 ; Sokolowski, Li, & Willson, 2015 ). In science education, Tsai and his colleagues have conducted a sequence of reviews of journal articles to synthesize research trends in every 5 years since 1998 (i.e., 1998–2002, 2003–2007, 2008–2012, and 2013–2017), based on publications in three main science education journals including, Science Education , the International Journal of Science Education , and the Journal of Research in Science Teaching (e.g., Lin, Lin, Potvin, & Tsai, 2019 ; Tsai & Wen, 2005 ). Erduran, Ozdem, and Park ( 2015 ) reviewed argumentation in science education research from 1998 to 2014 and Minner, Levy, and Century ( 2010 ) reviewed inquiry-based science instruction between 1984 and 2002. There are also many literature reviews and syntheses in engineering and technology education (e.g., Borrego, Foster, & Froyd, 2015 ; Xu, Williams, Gu, & Zhang, 2019 ). All of these reviews have been well received in different fields of traditional disciplinary education as they critically appraise and summarize the state-of-art of relevant research in a field in general or with a specific focus. Both types of reviews have been conducted with different methods for identifying, collecting, and analyzing relevant publications, and they differ in terms of review aim and topic scope, time period, and ways of literature selection. In this review, we systematically analyze journal publications in STEM education research to overview STEM education scholarship development broadly and globally.

The complexity and ambiguity of examining the status and trends in STEM education research

A review of research development in a field is relatively straight forward, when the field is mature and its scope can be well defined. Unlike discipline-based education research (DBER, National Research Council, 2012 ), STEM education is not a well-defined field. Conducting a comprehensive literature review of STEM education research require careful thought and clearly specified scope to tackle the complexity naturally associated with STEM education. In the following sub-sections, we provide some further discussion.

Diverse perspectives about STEM and STEM education

STEM education as explicated by the term does not have a long history. The interest in helping students learn across STEM fields can be traced back to the 1990s when the US National Science Foundation (NSF) formally included engineering and technology with science and mathematics in undergraduate and K-12 school education (e.g., National Science Foundation, 1998 ). It coined the acronym SMET (science, mathematics, engineering, and technology) that was subsequently used by other agencies including the US Congress (e.g., United States Congress House Committee on Science, 1998 ). NSF also coined the acronym STEM to replace SMET (e.g., Christenson, 2011 ; Chute, 2009 ) and it has become the acronym of choice. However, a consensus has not been reached on the disciplines included within STEM.

To clarify its intent, NSF published a list of approved fields it considered under the umbrella of STEM (see http://bit.ly/2Bk1Yp5 ). The list not only includes disciplines widely considered under the STEM tent (called “core” disciplines, such as physics, chemistry, and materials research), but also includes disciplines in psychology and social sciences (e.g., political science, economics). However, NSF’s list of STEM fields is inconsistent with other federal agencies. Gonzalez and Kuenzi ( 2012 ) noted that at least two US agencies, the Department of Homeland Security and Immigration and Customs Enforcement, use a narrower definition that excludes social sciences. Researchers also view integration across different disciplines of STEM differently using various terms such as, multidisciplinary, interdisciplinary, and transdisciplinary (Vasquez, Sneider, & Comer, 2013 ). These are only two examples of the ambiguity and complexity in describing and specifying what constitutes STEM.

Multiple perspectives about the meaning of STEM education adds further complexity to determining the extent to which scholarly activity can be categorized as STEM education. For example, STEM education can be viewed with a broad and inclusive perspective to include education in the individual disciplines of STEM, i.e., science education, technology education, engineering education, and mathematics education, as well as interdisciplinary or cross-disciplinary combinations of the individual STEM disciplines (English, 2016 ; Li, 2014 ). On the other hand, STEM education can be viewed by others as referring only to interdisciplinary or cross-disciplinary combinations of the individual STEM disciplines (Honey, Pearson, & Schweingruber, 2014 ; Johnson, Peters-Burton, & Moore, 2015 ; Kelley & Knowles, 2016 ; Li, 2018a ). These multiple perspectives allow scholars to publish articles in a vast array and diverse journals, as long as journals are willing to take the position as connected with STEM education. At the same time, however, the situation presents considerable challenges for researchers intending to locate, identify, and classify publications as STEM education research. To tackle such challenges, we tried to find out what we can learn from prior reviews related to STEM education.

Guidance from prior reviews related to STEM education

A search for reviews of STEM education research found multiple reviews that could suggest approaches for identifying publications (e.g., Brown, 2012 ; Henderson, Beach, & Finkelstein, 2011 ; Kim, Sinatra, & Seyranian, 2018 ; Margot & Kettler, 2019 ; Minichiello, Hood, & Harkness, 2018 ; Mizell & Brown, 2016 ; Thibaut et al., 2018 ; Wu & Rau, 2019 ). The review conducted by Brown ( 2012 ) examined the research base of STEM education. He addressed the complexity and ambiguity by confining the review with publications in eight journals, two in each individual discipline, one academic research journal (e.g., the Journal of Research in Science Teaching ) and one practitioner journal (e.g., Science Teacher ). Journals were selected based on suggestions from some faculty members and K-12 teachers. Out of 1100 articles published in these eight journals from January 1, 2007, to October 1, 2010, Brown located 60 articles that authors self-identified as connected to STEM education. He found that the vast majority of these 60 articles focused on issues beyond an individual discipline and there was a research base forming for STEM education. In a follow-up study, Mizell and Brown ( 2016 ) reviewed articles published from January 2013 to October 2015 in the same eight journals plus two additional journals. Mizell and Brown used the same criteria to identify and include articles that authors self-identified as connected to STEM education, i.e., if the authors included STEM in the title or author-supplied keywords. In comparison to Brown’s findings, they found that many more STEM articles were published in a shorter time period and by scholars from many more different academic institutions. Taking together, both Brown ( 2012 ) and Mizell and Brown ( 2016 ) tended to suggest that STEM education mainly consists of interdisciplinary or cross-disciplinary combinations of the individual STEM disciplines, but their approach consisted of selecting a limited number of individual discipline-based journals and then selecting articles that authors self-identified as connected to STEM education.

In contrast to reviews on STEM education, in general, other reviews focused on specific issues in STEM education (e.g., Henderson et al., 2011 ; Kim et al., 2018 ; Margot & Kettler, 2019 ; Minichiello et al., 2018 ; Schreffler, Vasquez III, Chini, & James, 2019 ; Thibaut et al., 2018 ; Wu & Rau, 2019 ). For example, the review by Henderson et al. ( 2011 ) focused on instructional change in undergraduate STEM courses based on 191 conceptual and empirical journal articles published between 1995 and 2008. Margot and Kettler ( 2019 ) focused on what is known about teachers’ values, beliefs, perceived barriers, and needed support related to STEM education based on 25 empirical journal articles published between 2000 and 2016. The focus of these reviews allowed the researchers to limit the number of articles considered, and they typically used keyword searches of selected databases to identify articles on STEM education. Some researchers used this approach to identify publications from journals only (e.g., Henderson et al., 2011 ; Margot & Kettler, 2019 ; Schreffler et al., 2019 ), and others selected and reviewed publications beyond journals (e.g., Minichiello et al., 2018 ; Thibaut et al., 2018 ; Wu & Rau, 2019 ).

The discussion in this section suggests possible reasons contributing to the absence of a general literature review of STEM education research and development: (1) diverse perspectives in existence about STEM and STEM education that contribute to the difficulty of specifying a scope of literature review, (2) its short but rapid development history in comparison to other discipline-based education (e.g., science education), and (3) difficulties in deciding how to establish the scope of the literature review. With respect to the third reason, prior reviews have used one of two approaches to identify and select articles: (a) identifying specific journals first and then searching and selecting specific articles from these journals (e.g., Brown, 2012 ; Erduran et al., 2015 ; Mizell & Brown, 2016 ) and (b) conducting selected database searches with keywords based on a specific focus (e.g., Margot & Kettler, 2019 ; Thibaut et al., 2018 ). However, neither the first approach of selecting a limited number of individual discipline-based journals nor the second approach of selecting a specific focus for the review leads to an approach that provides a general overview of STEM education scholarship development based on existing journal publications.

Current review

Two issues were identified in setting the scope for this review.

What time period should be considered?

What publications will be selected for review?

Time period

We start with the easy one first. As discussed above, the acronym STEM did exist until the early 2000s. Although the existence of the acronym does not generate scholarship on student learning in STEM disciplines, it is symbolic and helps focus attention to efforts in STEM education. Since we want to examine the status and trends in STEM education, it is reasonable to start with the year 2000. Then, we can use the acronym of STEM as an identifier in locating specific research articles in a way as done by others (e.g., Brown, 2012 ; Mizell & Brown, 2016 ). We chose the end of 2018 as the end of the time period for our review that began during 2019.

Focusing on publications beyond individual discipline-based journals

As mentioned before, scholars responded to the call for scholarship development in STEM education with publications that appeared in various outlets and diverse languages, including journals, books, and conference proceedings. However, journal publications are typically credited and valued as one of the most important outlets for research exchange (e.g., Erduran et al., 2015 ; Henderson et al., 2011 ; Lin et al., 2019 ; Xu et al., 2019 ). Thus, in this review, we will also focus on articles published in journals in English.

The discourse above on the complexity and ambiguity regarding STEM education suggests that scholars may publish their research in a wide range of journals beyond individual discipline-based journals. To search and select articles from a wide range of journals, we thought about the approach of searching selected databases with keywords as other scholars used in reviewing STEM education with a specific focus. However, existing journals in STEM education do not have a long history. In fact, IJ-STEM is the first journal in STEM education that has just been accepted into the Social Sciences Citation Index (SSCI) (Li, 2019a ). Publications in many STEM education journals are practically not available in several important and popular databases, such as the Web of Science and Scopus. Moreover, some journals in STEM education were not normalized due to a journal’s name change or irregular publication schedule. For example, the Journal of STEM Education was named as Journal of SMET Education when it started in 2000 in a print format, and the journal’s name was not changed until 2003, Vol 4 (3 and 4), and also went fully on-line starting 2004 (Raju & Sankar, 2003 ). A simple Google Scholar search with keywords will not be able to provide accurate information, unless you visit the journal’s website to check all publications over the years. Those added complexities prevented us from taking the database search as a viable approach. Thus, we decided to identify journals first and then search and select articles from these journals. Further details about the approach are provided in the “ Method ” section.

Research questions

Given a broader range of journals and a longer period of time to be covered in this review, we can examine some of the same questions as the IJ-STEM review (Li, Froyd, & Wang, 2019 ), but we do not have access to data on readership, articles accessed, or articles cited for the other journals selected for this review. Specifically, we are interested in addressing the following six research questions:

What were the status and trends in STEM education research from 2000 to the end of 2018 based on journal publications?

What were the patterns of publications in STEM education research across different journals?

Which countries or regions, based on the countries or regions in which authors were located, contributed to journal publications in STEM education?

What were the patterns of single-author and multiple-author publications in STEM education?

What main topics had emerged in STEM education research based on the journal publications?

What research methods did authors tend to use in conducting STEM education research?

Based on the above discussion, we developed the methods for this literature review to follow careful sequential steps to identify journals first and then identify and select STEM education research articles published in these journals from January 2000 to the end of 2018. The methods should allow us to obtain a comprehensive overview about the status and trends of STEM education research based on a systematic analysis of related publications from a broad range of journals and over a longer period of time.

Identifying journals

We used the following three steps to search and identify journals for inclusion:

We assumed articles on research in STEM education have been published in journals that involve more than one traditional discipline. Thus, we used Google to search and identify all education journals with their titles containing either two, three, or all four disciplines of STEM. For example, we did Google search of all the different combinations of three areas of science, mathematics, technology Footnote 1 , and engineering as contained in a journal’s title. In addition, we also searched possible journals containing the word STEAM in the title.

Since STEM education may be viewed as encompassing discipline-based education research, articles on STEM education research may have been published in traditional discipline-based education journals, such as the Journal of Research in Science Teaching . However, there are too many such journals. Yale’s Poorvu Center for Teaching and Learning has listed 16 journals that publish articles spanning across undergraduate STEM education disciplines (see https://poorvucenter.yale.edu/FacultyResources/STEMjournals ). Thus, we selected from the list some individual discipline-based education research journals, and also added a few more common ones such as the Journal of Engineering Education .

Since articles on research in STEM education have appeared in some general education research journals, especially those well-established ones. Thus, we identified and selected a few of those journals that we noticed some publications in STEM education research.

Following the above three steps, we identified 45 journals (see Table  1 ).

Identifying articles

In this review, we will not discuss or define the meaning of STEM education. We used the acronym STEM (or STEAM, or written as the phrase of “science, technology, engineering, and mathematics”) as a term in our search of publication titles and/or abstracts. To identify and select articles for review, we searched all items published in those 45 journals and selected only those articles that author(s) self-identified with the acronym STEM (or STEAM, or written as the phrase of “science, technology, engineering, and mathematics”) in the title and/or abstract. We excluded publications in the sections of practices, letters to editors, corrections, and (guest) editorials. Our search found 798 publications that authors self-identified as in STEM education, identified from 36 journals. The remaining 9 journals either did not have publications that met our search terms or published in another language other than English (see the two separate lists in Table 1 ).

Data analysis

To address research question 3, we analyzed authorship to examine which countries/regions contributed to STEM education research over the years. Because each publication may have either one or multiple authors, we used two different methods to analyze authorship nationality that have been recognized as valuable from our review of IJ-STEM publications (Li, Froyd, & Wang, 2019 ). The first method considers only the corresponding author’s (or the first author, if no specific indication is given about the corresponding author) nationality and his/her first institution affiliation, if multiple institution affiliations are listed. Method 2 considers every author of a publication, using the following formula (Howard, Cole, & Maxwell, 1987 ) to quantitatively assign and estimate each author’s contribution to a publication (and thus associated institution’s productivity), when multiple authors are included in a publication. As an example, each publication is given one credit point. For the publication co-authored by two, the first author would be given 0.6 and the second author 0.4 credit point. For an article contributed jointly by three authors, the three authors would be credited with scores of 0.47, 0.32, and 0.21, respectively.

After calculating all the scores for each author of each paper, we added all the credit scores together in terms of each author’s country/region. For brevity, we present only the top 10 countries/regions in terms of their total credit scores calculated using these two different methods, respectively.

To address research question 5, we used the same seven topic categories identified and used in our review of IJ-STEM publications (Li, Froyd, & Wang, 2019 ). We tested coding 100 articles first to ensure the feasibility. Through test-coding and discussions, we found seven topic categories could be used to examine and classify all 798 items.

K-12 teaching, teacher, and teacher education in STEM (including both pre-service and in-service teacher education)

Post-secondary teacher and teaching in STEM (including faculty development, etc.)

K-12 STEM learner, learning, and learning environment

Post-secondary STEM learner, learning, and learning environments (excluding pre-service teacher education)

Policy, curriculum, evaluation, and assessment in STEM (including literature review about a field in general)

Culture and social and gender issues in STEM education

History, epistemology, and perspectives about STEM and STEM education

To address research question 6, we coded all 798 publications in terms of (1) qualitative methods, (2) quantitative methods, (3) mixed methods, and (4) non-empirical studies (including theoretical or conceptual papers, and literature reviews). We assigned each publication to only one research topic and one method, following the process used in the IJ-STEM review (Li, Froyd, & Wang, 2019 ). When there was more than one topic or method that could have been used for a publication, a decision was made in choosing and assigning a topic or a method. The agreement between two coders for all 798 publications was 89.5%. When topic and method coding discrepancies occurred, a final decision was reached after discussion.

Results and discussion

In the following sections, we report findings as corresponding to each of the six research questions.

The status and trends of journal publications in STEM education research from 2000 to 2018

Figure  1 shows the number of publications per year. As Fig.  1 shows, the number of publications increased each year beginning in 2010. There are noticeable jumps from 2015 to 2016 and from 2017 to 2018. The result shows that research in STEM education had grown significantly since 2010, and the most recent large number of STEM education publications also suggests that STEM education research gained its own recognition by many different journals for publication as a hot and important topic area.

The distribution of STEM education publications over the years

Among the 798 articles, there were 549 articles with the word “STEM” (or STEAM, or written with the phrase of “science, technology, engineering, and mathematics”) included in the article’s title or both title and abstract and 249 articles without such identifiers included in the title but abstract only. The results suggest that many scholars tended to include STEM in the publications’ titles to highlight their research in or about STEM education. Figure  2 shows the number of publications per year where publications are distinguished depending on whether they used the term STEM in the title or only in the abstract. The number of publications in both categories had significant increases since 2010. Use of the acronym STEM in the title was growing at a faster rate than using the acronym only in the abstract.

The trends of STEM education publications with vs. without STEM included in the title

Not all the publications that used the acronym STEM in the title and/or abstract reported on a study involving all four STEM areas. For each publication, we further examined the number of the four areas involved in the reported study.

Figure  3 presents the number of publications categorized by the number of the four areas involved in the study, breaking down the distribution of these 798 publications in terms of the content scope being focused on. Studies involving all four STEM areas are the most numerous with 488 (61.2%) publications, followed by involving one area (141, 17.7%), then studies involving both STEM and non-STEM (84, 10.5%), and finally studies involving two or three areas of STEM (72, 9%; 13, 1.6%; respectively). Publications that used the acronym STEAM in either the title or abstract were classified as involving both STEM and non-STEM. For example, both of the following publications were included in this category.

Dika and D’Amico ( 2016 ). “Early experiences and integration in the persistence of first-generation college students in STEM and non-STEM majors.” Journal of Research in Science Teaching , 53 (3), 368–383. (Note: this article focused on early experience in both STEM and Non-STEM majors.)

Sochacka, Guyotte, and Walther ( 2016 ). “Learning together: A collaborative autoethnographic exploration of STEAM (STEM+ the Arts) education.” Journal of Engineering Education , 105 (1), 15–42. (Note: this article focused on STEAM (both STEM and Arts).)

Publication distribution in terms of content scope being focused on. (Note: 1=single subject of STEM, 2=two subjects of STEM, 3=three subjects of STEM, 4=four subjects of STEM, 5=topics related to both STEM and non-STEM)

Figure  4 presents the number of publications per year in each of the five categories described earlier (category 1, one area of STEM; category 2, two areas of STEM; category 3, three areas of STEM; category 4, four areas of STEM; category 5, STEM and non-STEM). The category that had grown most rapidly since 2010 is the one involving all four areas. Recent growth in the number of publications in category 1 likely reflected growing interest of traditional individual disciplinary based educators in developing and sharing multidisciplinary and interdisciplinary scholarship in STEM education, as what was noted recently by Li and Schoenfeld ( 2019 ) with publications in IJ-STEM.

Publication distribution in terms of content scope being focused on over the years

Patterns of publications across different journals

Among the 36 journals that published STEM education articles, two are general education research journals (referred to as “subject-0”), 12 with their titles containing one discipline of STEM (“subject-1”), eight with journal’s titles covering two disciplines of STEM (“subject-2”), six covering three disciplines of STEM (“subject-3”), seven containing the word STEM (“subject-4”), and one in STEAM education (“subject-5”).

Table  2 shows that both subject-0 and subject-1 journals were usually mature journals with a long history, and they were all traditional subscription-based journals, except the Journal of Pre - College Engineering Education Research , a subject-1 journal established in 2011 that provided open access (OA). In comparison to subject-0 and subject-1 journals, subject-2 and subject-3 journals were relatively newer but still had quite many years of history on average. There are also some more journals in these two categories that provided OA. Subject-4 and subject-5 journals had a short history, and most provided OA. The results show that well-established journals had tended to focus on individual disciplines or education research in general. Multidisciplinary and interdisciplinary education journals were started some years later, followed by the recent establishment of several STEM or STEAM journals.

Table 2 also shows that subject-1, subject-2, and subject-4 journals published approximately a quarter each of the publications. The number of publications in subject-1 journals is interested, because we selected a relatively limited number of journals in this category. There are many other journals in the subject-1 category (as well as subject-0 journals) that we did not select, and thus it is very likely that we did not include some STEM education articles published in subject-0 or subject-1 journals that we did not include in our study.

Figure  5 shows the number of publications per year in each of the five categories described earlier (subject-0 through subject-5). The number of publications per year in subject-5 and subject-0 journals did not change much over the time period of the study. On the other hand, the number of publications per year in subject-4 (all 4 areas), subject-1 (single area), and subject-2 journals were all over 40 by the end of the study period. The number of publications per year in subject-3 journals increased but remained less than 30. At first sight, it may be a bit surprising that the number of publications in STEM education per year in subject-1 journals increased much faster than those in subject-2 journals over the past few years. However, as Table 2 indicates these journals had long been established with great reputations, and scholars would like to publish their research in such journals. In contrast to the trend in subject-1 journals, the trend in subject-4 journals suggests that STEM education journals collectively started to gain its own identity for publishing and sharing STEM education research.

STEM education publication distribution across different journal categories over the years. (Note: 0=subject-0; 1=subject-1; 2=subject-2; 3=subject-3; 4=subject-4; 5=subject-5)

Figure  6 shows the number of STEM education publications in each journal where the bars are color-coded (yellow, subject-0; light blue, subject-1; green, subject-2; purple, subject-3; dark blue, subject-4; and black, subject-5). There is no clear pattern shown in terms of the overall number of STEM education publications across categories or journals, but very much individual journal-based performance. The result indicates that the number of STEM education publications might heavily rely on the individual journal’s willingness and capability of attracting STEM education research work and thus suggests the potential value of examining individual journal’s performance.

Publication distribution across all 36 individual journals across different categories with the same color-coded for journals in the same subject category

The top five journals in terms of the number of STEM education publications are Journal of Science Education and Technology (80 publications, journal number 25 in Fig.  6 ), Journal of STEM Education (65 publications, journal number 26), International Journal of STEM Education (64 publications, journal number 17), International Journal of Engineering Education (54 publications, journal number 12), and School Science and Mathematics (41 publications, journal number 31). Among these five journals, two journals are specifically on STEM education (J26, J17), two on two subjects of STEM (J25, J31), and one on one subject of STEM (J12).

Figure  7 shows the number of STEM education publications per year in each of these top five journals. As expected, based on earlier trends, the number of publications per year increased over the study period. The largest increase was in the International Journal of STEM Education (J17) that was established in 2014. As the other four journals were all established in or before 2000, J17’s short history further suggests its outstanding performance in attracting and publishing STEM education articles since 2014 (Li, 2018b ; Li, Froyd, & Wang, 2019 ). The increase was consistent with the journal’s recognition as the first STEM education journal for inclusion in SSCI starting in 2019 (Li, 2019a ).

Publication distribution of selected five journals over the years. (Note: J12: International Journal of Engineering Education; J17: International Journal of STEM Education; J25: Journal of Science Education and Technology; J26: Journal of STEM Education; J31: School Science and Mathematics)

Top 10 countries/regions where scholars contributed journal publications in STEM education

Table  3 shows top countries/regions in terms of the number of publications, where the country/region was established by the authorship using the two different methods presented above. About 75% (depending on the method) of contributions were made by authors from the USA, followed by Australia, Canada, Taiwan, and UK. Only Africa as a continent was not represented among the top 10 countries/regions. The results are relatively consistent with patterns reported in the IJ-STEM study (Li, Froyd, & Wang, 2019 )

Further examination of Table 3 reveals that the two methods provide not only fairly consistent results but also yield some differences. For example, Israel and Germany had more publication credit if only the corresponding author was considered, but South Korea and Turkey had more publication credit when co-authors were considered. The results in Table 3 show that each method has value when analyzing and comparing publications by country/region or institution based on authorship.

Recognizing that, as shown in Fig. 1 , the number of publications per year increased rapidly since 2010, Table  4 shows the number of publications by country/region over a 10-year period (2009–2018) and Table 5 shows the number of publications by country/region over a 5-year period (2014–2018). The ranks in Tables  3 , 4 , and 5 are fairly consistent, but that would be expected since the larger numbers of publications in STEM education had occurred in recent years. At the same time, it is interesting to note in Table 5 some changes over the recent several years with Malaysia, but not Israel, entering the top 10 list when either method was used to calculate author's credit.

Patterns of single-author and multiple-author publications in STEM education

Since STEM education differs from traditional individual disciplinary education, we are interested in determining how common joint co-authorship with collaborations was in STEM education articles. Figure  8 shows that joint co-authorship was very common among these 798 STEM education publications, with 83.7% publications with two or more co-authors. Publications with two, three, or at least five co-authors were highest, with 204, 181, and 157 publications, respectively.

Number of publications with single or different joint authorship. (Note: 1=single author; 2=two co-authors; 3=three co-authors; 4=four co-authors; 5=five or more co-authors)

Figure  9 shows the number of publications per year using the joint authorship categories in Fig.  8 . Each category shows an increase consistent with the increase shown in Fig. 1 for all 798 publications. By the end of the time period, the number of publications with two, three, or at least five co-authors was the largest, which might suggest an increase in collaborations in STEM education research.

Publication distribution with single or different joint authorship over the years. (Note: 1=single author; 2=two co-authors; 3=three co-authors; 4=four co-authors; 5=five or more co-authors)

Co-authors can be from the same or different countries/regions. Figure  10 shows the number of publications per year by single authors (no collaboration), co-authors from the same country (collaboration in a country/region), and co-authors from different countries (collaboration across countries/regions). Each year the largest number of publications was by co-authors from the same country, and the number increased dramatically during the period of the study. Although the number of publications in the other two categories increased, the numbers of publications were noticeably fewer than the number of publications by co-authors from the same country.

Publication distribution in authorship across different categories in terms of collaboration over the years

Published articles by research topics

Figure  11 shows the number of publications in each of the seven topic categories. The topic category of goals, policy, curriculum, evaluation, and assessment had almost half of publications (375, 47%). Literature reviews were included in this topic category, as providing an overview assessment of education and research development in a topic area or a field. Sample publications included in this category are listed as follows:

DeCoito ( 2016 ). “STEM education in Canada: A knowledge synthesis.” Canadian Journal of Science , Mathematics and Technology Education , 16 (2), 114–128. (Note: this article provides a national overview of STEM initiatives and programs, including success, criteria for effective programs and current research in STEM education.)

Ring-Whalen, Dare, Roehrig, Titu, and Crotty ( 2018 ). “From conception to curricula: The role of science, technology, engineering, and mathematics in integrated STEM units.” International Journal of Education in Mathematics Science and Technology , 6 (4), 343–362. (Note: this article investigates the conceptions of integrated STEM education held by in-service science teachers through the use of photo-elicitation interviews and examines how those conceptions were reflected in teacher-created integrated STEM curricula.)

Schwab et al. ( 2018 ). “A summer STEM outreach program run by graduate students: Successes, challenges, and recommendations for implementation.” Journal of Research in STEM Education , 4 (2), 117–129. (Note: the article details the organization and scope of the Foundation in Science and Mathematics Program and evaluates this program.)

Frequencies of publications’ research topic distributions. (Note: 1=K-12 teaching, teacher and teacher education; 2=Post-secondary teacher and teaching; 3=K-12 STEM learner, learning, and learning environment; 4=Post-secondary STEM learner, learning, and learning environments; 5=Goals and policy, curriculum, evaluation, and assessment (including literature review); 6=Culture, social, and gender issues; 7=History, philosophy, Epistemology, and nature of STEM and STEM education)

The topic with the second most publications was “K-12 teaching, teacher and teacher education” (103, 12.9%), followed closely by “K-12 learner, learning, and learning environment” (97, 12.2%). The results likely suggest the research community had a broad interest in both teaching and learning in K-12 STEM education. The top three topics were the same in the IJ-STEM review (Li, Froyd, & Wang, 2019 ).

Figure  11 also shows there was a virtual tie between two topics with the fourth most cumulative publications, “post-secondary STEM learner & learning” (76, 9.5%) and “culture, social, and gender issues in STEM” (78, 9.8%), such as STEM identity, students’ career choices in STEM, and inclusion. This result is different from the IJ-STEM review (Li, Froyd, & Wang, 2019 ), where “post-secondary STEM teacher & teaching” and “post-secondary STEM learner & learning” were tied as the fourth most common topics. This difference is likely due to the scope of journals and the length of the time period being reviewed.

Figure  12 shows the number of publications per year in each topic category. As expected from the results in Fig.  11 the number of publications in topic category 5 (goals, policy, curriculum, evaluation, and assessment) was the largest each year. The numbers of publications in topic category 3 (K-12 learner, learning, and learning environment), 1 (K-12 teaching, teacher, and teacher education), 6 (culture, social, and gender issues in STEM), and 4 (post-secondary STEM learner and learning) were also increasing. Although Fig.  11 shows the number of publications in topic category 1 was slightly more than the number of publications in topic category 3 (see Fig.  11 ), the number of publications in topic category 3 was increasing more rapidly in recent years than its counterpart in topic category 1. This may suggest a more rapidly growing interest in K-12 STEM learner, learning, and learning environment. The numbers of publications in topic categories 2 and 7 were not increasing, but the number of publications in IJ-STEM in topic category 2 was notable (Li, Froyd, & Wang, 2019 ). It will be interesting to follow trends in the seven topic categories in the future.

Publication distributions in terms of research topics over the years

Published articles by research methods

Figure  13 shows the number of publications per year by research methods in empirical studies. Publications with non-empirical studies are shown in a separate category. Although the number of publications in each of the four categories increased during the study period, there were many more publications presenting empirical studies than those without. For those with empirical studies, the number of publications using quantitative methods increased most rapidly in recent years, followed by qualitative and then mixed methods. Although there were quite many publications with non-empirical studies (e.g., theoretical or conceptual papers, literature reviews) during the study period, the increase of the number of publications in this category was noticeably less than empirical studies.

Publication distributions in terms of research methods over the years. (Note: 1=qualitative, 2=quantitative, 3=mixed, 4=Non-empirical)

Concluding remarks

The systematic analysis of publications that were considered to be in STEM education in 36 selected journals shows tremendous growth in scholarship in this field from 2000 to 2018, especially over the past 10 years. Our analysis indicates that STEM education research has been increasingly recognized as an important topic area and studies were being published across many different journals. Scholars still hold diverse perspectives about how research is designated as STEM education; however, authors have been increasingly distinguishing their articles with STEM, STEAM, or related words in the titles, abstracts, and lists of keywords during the past 10 years. Moreover, our systematic analysis shows a dramatic increase in the number of publications in STEM education journals in recent years, which indicates that these journals have been collectively developing their own professional identity. In addition, the International Journal of STEM Education has become the first STEM education journal to be accepted in SSCI in 2019 (Li, 2019a ). The achievement may mark an important milestone as STEM education journals develop their own identity for publishing and sharing STEM education research.

Consistent with our previous reviews (Li, Froyd, & Wang, 2019 ; Li, Wang, & Xiao, 2019 ), the vast majority of publications in STEM education research were contributed by authors from the USA, where STEM and STEAM education originated, followed by Australia, Canada, and Taiwan. At the same time, authors in some countries/regions in Asia were becoming very active in the field over the past several years. This trend is consistent with findings from the IJ-STEM review (Li, Froyd, & Wang, 2019 ). We certainly hope that STEM education scholarship continues its development across all five continents to support educational initiatives and programs in STEM worldwide.

Our analysis has shown that collaboration, as indicated by publications with multiple authors, has been very common among STEM education scholars, as that is often how STEM education distinguishes itself from the traditional individual disciplinary based education. Currently, most collaborations occurred among authors from the same country/region, although collaborations across cross-countries/regions were slowly increasing.

With the rapid changes in STEM education internationally (Li, 2019b ), it is often difficult for researchers to get an overall sense about possible hot topics in STEM education especially when STEM education publications appeared in a vast array of journals across different fields. Our systematic analysis of publications has shown that studies in the topic category of goals, policy, curriculum, evaluation, and assessment have been the most prevalent, by far. Our analysis also suggests that the research community had a broad interest in both teaching and learning in K-12 STEM education. These top three topic categories are the same as in the IJ-STEM review (Li, Froyd, & Wang, 2019 ). Work in STEM education will continue to evolve and it will be interesting to review the trends in another 5 years.

Encouraged by our recent IJ-STEM review, we began this review with an ambitious goal to provide an overview of the status and trends of STEM education research. In a way, this systematic review allowed us to achieve our initial goal with a larger scope of journal selection over a much longer period of publication time. At the same time, there are still limitations, such as the decision to limit the number of journals from which we would identify publications for analysis. We understand that there are many publications on STEM education research that were not included in our review. Also, we only identified publications in journals. Although this is one of the most important outlets for scholars to share their research work, future reviews could examine publications on STEM education research in other venues such as books, conference proceedings, and grant proposals.

Availability of data and materials

The data and materials used and analyzed for the report are publicly available at the various journal websites.

Journals containing the word "computers" or "ICT" appeared automatically when searching with the word "technology". Thus, the word of "computers" or "ICT" was taken as equivalent to "technology" if appeared in a journal's name.

Abbreviations

Information and Communications Technology

International Journal of STEM Education

Kindergarten–Grade 12

Science, Mathematics, Engineering, and Technology

Science, Technology, Engineering, Arts, and Mathematics

Science, Technology, Engineering, and Mathematics

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How Applied Research Is Used in Psychology

Kendra Cherry, MS, is a psychosocial rehabilitation specialist, psychology educator, and author of the "Everything Psychology Book."

Sean is a fact-checker and researcher with experience in sociology, field research, and data analytics.

Verywell / JR Bee

Basic vs. Applied Research

How it works, potential challenges.

• Real-World Applications

Applied research refers to scientific study and research that seeks to solve practical problems. This type of research plays an important role in solving everyday problems that can have an impact on life, work, health, and overall well-being. For example, it can be used to find solutions to everyday problems, cure illness, and develop innovative technologies.

There are many different types of psychologists who perform applied research. Human factors or industrial/organizational psychologists often do this type of research.

A few examples of applied research in psychology include:

• Analyzing what type of prompts will inspire people to volunteer their time to charities
• Investigating if background music in a work environment can contribute to greater productivity
• Investigating which treatment approach is the most effective for reducing anxiety
• Researching which strategies work best to motivate workers
• Studying different keyboard designs to determine which is the most efficient and ergonomic

As you may notice, all of these examples explore topics that will address real-world issues. This immediate and practical application of the findings is what distinguishes applied research from basic research , which instead focuses on theoretical concerns.  

Basic research tends to focus on "big picture" topics, such as increasing the scientific knowledge base around a particular topic. Applied research tends to work toward solving specific problems that affect people in the here and now.

For example a social psychologist may perform basic research on how different factors may contribute to violence in general. But if a social psychologist were conducting applied research, they may be tackling the question of what specific programs can be implemented to reduce violence in school settings.

However, basic research and applied research are actually closely intertwined. The information learned from basic research often builds the basis on which applied research is formed.

Basic research often informs applied research, and applied research often helps basic researchers refine their theories.

Applied research usually starts by identifying a problem that exists in the real world. Then psychologists begin to conduct research in order to identify a solution.

The type of research used depends on a variety of factors. This includes unique characteristics of the situation and the kind of problem psychologists are looking to solve.

Researchers might opt to use naturalistic observation to see the problem as it occurs in a real-world setting. They may then conduct experiments to determine why the problem occurs and to explore different solutions that may solve it.

As with any type of research, challenges can arise when conducting applied research in psychology. Some potential problems that researchers may face include:

Ethical Challenges

When conducting applied research in a naturalistic setting, researchers have to avoid ethical issues, which can make research more difficult. For example, they may come across concerns about privacy and informed consent.

In some cases, such as in workplace studies conducted by industrial-organizational psychologists, participants may feel pressured or even coerced into participating as a condition of their employment. Such factors sometimes impact the result of research studies.

Problems With Validity

Since applied research often takes place in the field, it can be difficult for researchers to maintain complete control over all of the variables . Extraneous variables can also exert a subtle influence that experimenters may not even consider could have an effect on the results.

In many cases, researchers are forced to strike a balance between a study's ecological validity (which is usually quite high in applied research) and the study's internal validity .  

Since applied research focuses on taking the results of scientific research and applying it to real-world situations, those who work in this line of research tend to be more concerned with the external validity of their work.

External validity refers to the extent that scientific findings can be generalized to other populations.

Researchers don't just want to know if the results of their experiments apply to the participants in their studies, rather they want these results to also apply to larger populations outside of the lab.

External validity is often of particular importance in applied research. Researchers want to know that their findings can be applied to real people in real settings.

How It's Used in the Real-World

Here are some examples of how applied research is used to solve real-world problems:

• A hospital may conduct applied research to figure out how to best prepare patients for certain types of surgical procedures.
• A business may hire an applied psychologist to assess how to design a workplace console to maximize efficiency and productivity while minimizing worker fatigue and error.
• An organization may hire an applied researcher to determine how to select employees that are best suited for certain positions within the company.

Applied research is an important tool in the process of understanding the human mind and behavior. Thanks to much of this research, psychologists are able to investigate problems that affect people's daily lives. This kind of research specifically targets real-world issues, however it also contributes to knowledge about how people think and behave.

National Science Foundation. Definitions of research and development: An annotated compilation of official sources .

CDC. Evaluation briefs .

Helmchen H. Ethical issues in naturalistic versus controlled trials .  Dialogues Clin Neurosci . 2011;13(2):173‐182.

Truijens FL, Cornelis S, Desmet M, De Smet MM, Meganck R. Validity beyond measurement: Why psychometric validity is insufficient for valid psychotherapy research .  Front Psychol . 2019;10:532. doi:10.3389/fpsyg.2019.00532

 McBride D.  The Process Of Research In Psychology . SAGE Publications; 2018.

By Kendra Cherry, MSEd Kendra Cherry, MS, is a psychosocial rehabilitation specialist, psychology educator, and author of the "Everything Psychology Book."

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Students’ Perceptions of an Applied Research Experience in an Undergraduate Exercise Science Course

Applied research experiences can provide numerous benefits to undergraduate students, however few studies have assessed the perceptions of Exercise Science (EXS) students to an applied research experience. The purpose of this study was two-fold: 1) to describe the rationale and implementation of an applied research experience into an EXS curriculum and 2) to evaluate EXS undergraduate students’ perceptions of an applied research experience. An EXS measurement course was chosen for implementation of an applied research experience. The applied research experience required groups of students to design, implement, and evaluate a student-led research project. Fourteen questions were constructed, tailored to EXS undergraduate students, to assess students’ perceptions of the experience. Qualitative analysis was used for all applicable data, with repeated trends noted; quantitative data were collapsed to determine frequencies. There was an overall positive student perception of the experience and 85.7% of students agreed an applied research experience should be continued. 84.7% of students perceived the experience as educationally enriching, while 92.8% reported the experience was academically challenging. This experience allowed students to develop comprehensive solutions to problems that arose throughout the semester; while facilitating communication, collaboration, and problem solving. Students believed research experiences were beneficial, but could be time consuming when paired with other responsibilities. Results suggest an applied research experience has the potential to help further the development of EXS undergraduate students. Understanding student perceptions of an applied research experience may prove useful to faculty interested in engaging students in the research process.

INTRODUCTION

Colleges and universities actively encourage faculty to use high-impact, educational practices to better engage undergraduate students. High-impact educational practices include learning communities, service-learning, writing-intensive courses, capstone experiences, and applied research experiences ( 12 ). Applied research experiences directly address the goals of the Association of American Colleges and Universities by: providing students multiple opportunities to engage in “inquiry-based learning”, learning how to find and evaluate evidence, considering and assessing competing interpretations, and communicating persuasively ( 5 ). Engaging students in inquiry-based learning, via applied research experiences, is a particularly effective strategy to connect key classroom concepts and questions with active involvement in the research process. These experiences can promote better grades and increase perceived satisfaction with the educational experience ( 1 ). Student motivation and expectations can influence the relationships of the skills they develop ( 7 ), allowing them to develop a better understanding of course content, increase self-confidence, and report being more self-driven to develop problem solving skills and higher order thinking ( 6 , 10 ). Previous research has suggested that students participating in applied research experiences have a higher perception of their ability to act as a leader, understand scientific findings, analyze literature critically, and possess clear career goals compared to students with no research experience ( 1 ).

Applied research experience inserted into an undergraduate career, specifically in the early years, allows for students to increase research-specific and other transferable skills ( 8 ). Thus, applied research experiences prepare students for successful transition into post-baccalaureate graduate studies and/or a professional career. In fact, undergraduate students that engage in applied research experiences are significantly more likely to continue education past a bachelor’s degree and are twice as likely to complete a doctoral degree ( 1 ). Applied research experiences play a chief role in providing students with a context of learning to enhance knowledge and develop skills, which encourages more students to pursue postgraduate research careers and/or continue their professional education ( 16 ). Additionally, applied research experiences have the potential to develop two broad, transferable skill sets: hard skills and soft skills. Examples of hard skills include writing effectively, analyzing literature critically, and thinking logically about complex material ( 1 ). Examples of soft skills include teamwork and cooperation, interpersonal communication, and time management. Applied research experiences that incorporate a group aspect have the potential to develop numerous soft skills such as teamwork, collaboration, and adaptability. Graduating from an undergraduate program with perceived mastery of hard and soft skills allows graduates to contribute to their career field and improve their opportunity to obtain a job in their desired field of study ( 1 , 17 ). These two skills sets have been identified as major competencies in nearly all professions ( 15 ).

Many science, technology, engineering, and mathematics (STEM) undergraduate and graduate programs offer applied research experiences for students and examples of implementation strategies into STEM curriculum have been previously published ( 7 , 13 , 14 ). Multiple research groups have outlined the benefits of undergraduate students’ engagement in applied research experiences within STEM programs; these include personal and professional growth ( 7 ), enhancement of educational experiences ( 14 ), and supporting the interests of the student to peruse a career in science ( 14 ). Seymour et al. ( 20 ) found an overwhelmingly positive student response referencing gains from their involvement with an applied research experience within a STEM program. Another study found similar results in regards to student benefits related to applied research experiences in a STEM laboratory course, even when students were not familiar with the subject and inexperienced with experimental methods ( 17 ). There is less evidence that exercise science-related disciplines regularly offer these experiences. Given that exercise science-related disciplines are grounded in theory, but emphasize the practical application of theory, the incorporation of applied research experiences into the curriculum would allow the opportunity for the practical application of theory and scholarship within the discipline. To our knowledge, only two groups have described aspects of incorporating an applied research experience into an exercise science-related undergraduate curriculum. A recent paper published by Lee et al. ( 13 ) outlines a general 12-step guide for the implementation of an abbreviated applied research experience into an undergraduate course. Another paper by FitzPatrick and Campisi ( 5 ) describes how an applied research experience, incorporated into an exercise physiology course, reinforced and extended skills learned in previous course work, while offering an interesting, dynamic and challenging experience for students.

Positive perceptions of educational opportunities have a beneficial impact on student performance and, similarly, the inverse is found as well ( 4 ). While integrating an applied research experience into an exercise science-related, undergraduate curriculum has the potential for numerous educational benefits ( 5 ), no study has investigated student perceptions of courses that have integrated this high-impact practice in exercise science-related disciplines. This is important because previous work suggests that students across different disciplines may experience the benefits of research experiences differently ( 3 ). A better understanding of how students perceive the integration of an applied research experience can help guide the successful integration of this high-impact educational strategy into an exercise science-related undergraduate curriculum. Therefore, the purpose of this manuscript is two-fold: 1) to describe the rationale for and implementation of an applied research experience into an Exercise Science (EXS) curriculum and 2) to evaluate EXS undergraduate students’ perceptions of the applied research experience.

In the Fall of 2014, a course titled, EXS 324 - Measurement and Evaluation in Kinesiology , was chosen for implementation of an applied research experience. Originally, this course was designed to help students understand the measurement process and applications of statistics in EXS. Topics included understanding, calculating, and evaluating validity, introduction of practical inferential statistics for the physical activity and health professions, devising tests, and measuring physical fitness. Unfortunately, students at that time did not have an opportunity to apply what they were learning outside the classroom setting because few formal research experiences were available for undergraduate EXS students at Western Kentucky University.

To address this problem, an applied research experience was incorporated into the course. The applied research experience required groups of students to design, implement, and evaluate a student-led research project. The experience was comprehensive in that students collected data, constructed a formal written report of the project (including Introduction, Literature Review, Methods, Results, and Discussion sections), and presented their work in poster format.

The primary objectives for including an applied research experience in the EXS curriculum were: 1) to engage students to develop a better understanding of course content via active participation and application and 2) to promote the cultivation of hard and soft skill sets.

Key course topics included: an overview of measurement and assessment tools in the field of exercise science, analysis and interpretation of quantitative information, statistical analysis tools commonly used in exercise science-related fields, and an overview of the research process (including literature review, hypothesis generation, methods and data collection, data analysis and interpretation, etc.). In order to apply the students’ knowledge of measurement and assessment tools in the field of exercise science, students were instructed to develop their own research questions along with support of a formal Methods description for their research project. The development of a Methods section required students to carefully select appropriate assessment tool(s) that would allow them to assess their primary research objective(s). One aspect of the applied research experience required students to collect and analyze their own original data. This experience provided the students with the opportunity to practically apply their knowledge of the tools and techniques commonly used in exercise science-related fields to analyze and interpret data. The opportunity for students to conduct an applied research experience, starting with the initial conception of the research question to presenting the final results, allowed the students to experience the entire research process from beginning to end.

Specific, transferable hard and soft skills were prioritized and course tasks were designed to develop the targeted skills.

Targeted hard skills included:

• scientific writing
• critical analysis of literature
• data collection and analysis
• interpretation of results

Targeted soft skills included:

• interpersonal communication
• teamwork and professional etiquette
• conflict resolution
• effective communication to an audience

Course assessments were designed to meet the primary course objectives, which not only included learning the key course topics described earlier, but also included the development of targeted hard and soft skills. Students were instructed to submit a final project report that included an Introduction, Literature Review, Methods, Results, and Discussion. These assignments were intended to enhance the following hard skills: scientific writing, critical analysis of literature, and interpretation of data. Because students collected original data, their data collection skills were developed as well. In order to enhance targeted soft skills of interpersonal communication and teamwork, students were required to work in groups. A team evaluation assessment (see Figure 1 ), adapted from previous work by Kahn ( 9 ) and Oakley et al. ( 18 ), was assigned for each individual upon project completion. This assessment was designed to promote accountability in terms of teamwork and professional etiquette. It consisted of a self-reported, individual evaluation and an evaluation of each team member relating to contributions to the project, effective communication, ability to accept constructive criticism, and other aspects contributing to the overall success of the project.

Research team evaluation assessment.

In order to develop conflict resolution skills, students were provided with a framework for resolving group disputes (see Figure 2 ) and permitted to “fire” a group member. This procedure for “firing” a group member was adapted from previous work published by others ( 9 , 18 ). Fortunately, no student has been fired since implementing this procedure. Lastly, students were given the opportunity to enhance their ability to communicate with an audience by designing and presenting a research poster.

Procedures for group work disputes.

Consistent with the targeted course topics and skills to be developed, the following course learning outcomes were constructed: 1) demonstrating the ability to select and administer measurement and assessment tools in the field, 2) demonstrating the ability to make sense of quantitative information, 3) understanding and applying common descriptive and inferential statistics, and 4) demonstrating the ability to design a research project by collecting data, evaluating results, and presenting to a professional audience.

To help guide students through the applied research experience process, the project consisted of seven distinct steps:

• Step 1: Groups of 4–5 students were instructed to choose a potential research topic of interest. Groups were provided a list of existing faculty research topics for possible collaboration or they could choose their own topic with approval from the instructor. Allowing flexibility in the research topic selection was intentional, as previous studies have indicated that providing students with a large variety of topic choices, results in students being less likely to randomly select a topic or feel pressured to select a topic in which they are less interested ( 13 ).
• Step 2: To develop library search skills, the ability to identify primary academic sources, and research reading skills, each group was instructed to complete a Literature Review for their chosen topic. The Literature Review consisted of an introduction, body, and conclusion sections, referencing at least 10 primary articles.
• Step 3: Students completed an overall Introduction to the research project based on findings from the Literature Review (described in Step 2). Research question(s) and hypotheses were included in the Introduction.
• Step 4: Students completed a research proposal which included Introduction and Method sections through identifying independent and dependent variables. During this step, students were to identify the specific testing procedures, equipment needed, facilities for testing, and potential participants.
• Step 5: Students completed the data collection process. They were given three options for data collection, the first being to collect data from fellow classmates, the second being to collect data from outside of the classroom, and finally students could use dummy data. If students chose to collect data from outside or inside the classroom, Institutional Review Board (IRB) approval was required. As an incentive, students who chose to complete the IRB process received a 5% bonus for the overall project.
• Step 6: After data collection, each group chose the appropriate statistical test and confirmed with their research mentor or the instructor. This step allowed for the instructor to assess the development of the students in accordance with their ability to select appropriate statistical methods and analyze these data ( 13 ). Using Microsoft Excel or the Statistical Package for the Social Sciences (SPSS Version 24), students utilized many of the statistical procedures learned in the classroom. Some of the statistical procedures included Pearson correlation coefficient, paired and independent t-tests, ANOVA, and Chi-square. Additionally, students constructed appropriate tabular and/or graphical displays of their data, which they included in their written Results sections.
• Step 7: Using Microsoft PowerPoint or Prezi presentation software, students constructed a professional research presentation that was presented to the rest of the class and faculty during the final week of the course.

Recent work by Visser-Wijnveen et al. ( 21 ) indicates that the measures of quality, beliefs , motivation, reflection, participation , and current research , accurately capture a student’s perception of an applied research experience ( 21 ). Consistent with these findings, we constructed 14 questions to assess students’ perceptions of the applied research experience, tailored to EXS undergraduate students (See Table 1 ). Of these questions, two were used to identify sample groups, three were yes or no, seven were scored on a 5-point Likert scale, and two were open-ended. Questions were categorized into a research integration scale, previously described by Visser-Wijnveen et al. ( 21 ). Students enrolled in the Spring 2014, Fall 2014, and Fall 2015 semesters were asked to respond to the questions.

Online questions to assess student perceptions of the applied research experience.

Students enrolled in the Spring 2014, Fall 2014, and Fall 2015 sections of the course were given the opportunity to voluntarily complete online questions by clicking on a unique link via Qualtrics software. Approximately 29% (28 of 96) of the students completed the Qualtrics survey, which was a limitation to the study. Upon survey entry, the respondents were asked to read and electronically sign an informed consent form before continuing to answer the series of questions. To maintain anonymity, the students did not provide any identifying information. Students could choose to enter a drawing for a $10 prize from the university bookstore at the end of the survey. Student anonymity was maintained by redirecting them to a separate survey to complete the entry form for the drawing. This study was approved by the WKU Institutional Review Board (IRB #743731-1).

The qualitative data were evaluated independently by two unbiased researchers that were blinded to the survey development and study hypothesis. Each individually examined the data, interpreted the data forming an impression, reported their impressions from the data, and noted themes. After the independent analysis, the researchers then compared their results to mutually agree on common themes in the students’ responses. Quantitative data were collapsed to determine frequencies.

The perceptions of an applied research experience among EXS undergraduate students enrolled in a course titled EXS 324 - Measurement and Evaluation in Kinesiology were evaluated. Of the 96 students enrolled in the course from the Spring 2014 through the Fall 2015, 28 students responded to the online questions. Of the 28 students that responded, 7 represented Spring 2014, 12 represented Fall 2014, and 9 represented Fall 2015. While our results are reported for these 28 students, these data may or may not represent all 96 students who were enrolled in the course. This corresponds to a response rate of 20.0% in the Spring 2014, 31.6% in the Fall 2014, and 31.0% in the Fall 2015. These data may or may not represent all 96 students who were enrolled in the course during the three different semesters (i.e. Spring 2014, Fall 2014, and Fall 2015).

Of all respondents, the majority of students (60.7%) received IRB approval to collect data for their research project, with 21.4% planning to present their research project outside of the course (see Table 2 ). Additionally, 85.7% of respondents believed that an applied research experience should be continued within the course, compared to only 10.7% indicating that they did not think the research project should be a requirement.

Total percentage of student responses to Yes or No questions.

Overall, 46.4% of respondents “strongly agreed” that their instructor was effective, compared to only 10.7% that “disagreed” (see Figure 3 ). The majority of students (57.1%) “strongly agreed” and an additional 32.1% “agreed” that expectations and deadlines were clearly described. 53.6% of respondents “strongly agreed” and an additional 31.1% “agreed” that the research project was an enriching educational experience. Almost 93% of the respondents (46.4% “strongly agreed” and 46.4% “agreed”) indicated that the project was academically challenging. Figure 3 represents student responses to the 5-point Likert scale questions.

Student responses to Likert scale questions.

Students had the opportunity to provide additional comments when presented with several of the 5-point Likert scale questions. There were 6 total comments in response to the question “The research project was academically challenging.” All 6 comments were interpreted as indicating students perceived the research project as academically challenging. Multiple responses included positive inferences including: “I’m glad I was able to experience a research project…”, “I felt this project was a great opportunity…”, “the research project helped me apply the topic…”, and “knowledge and experience gained from it will help me in the future.” Responses also revealed perceived difficulties in carrying out the research project including: “it was challenging at times…”, “The project was very time consuming and required extensive research and application…”, and “Finding group members volunteering their time outside of class was a struggle…”

Overall, the optional comments associated with Likert scale questions indicated that students felt the applied research experience was an effective learning tool, allowed them to develop a better understanding of the research process, and enabled them to learn about topics of their interest. Comments such as “… learned a lot…”, “…it was a great exercise and was effective…”, and “The project required active participation throughout the semester. In turn, students developed interpersonal relationships…” implied that the students perceived the applied research experience was an effective learning tool. Students commented that they enjoyed learning about the research process, which is evidenced by comments such as: “The research project allowed me to develop a more comprehensive understanding of how research in the field of exercise science can be applied to a multitude of theories and models.” Lastly, some students expressed appreciation for the opportunity to learn about topics of interest to them. Comments such as “I love my EXS program and this project made me like it more.” indicate that the opportunity to learn about topics of their interest in the EXS field was perceived as positive by some students.

Students were asked two open-ended questions: 1) “What would you change about the research project experience?” and 2) “Was the research project conducive to your learning style?”. Common themes identified from the first open-ended question, regarding suggested changes to the research project experience, included: 1) references to the IRB process, 2) group member dynamics, and 3) time constraints. Three comments indicated students valued the IRB application experience and believed it should be a goal of all students participating in the applied research experience. Comments regarding group member dynamics reflected the difficulties of working in a group. For example, one student suggested “express the importance of working together as a group…”. Other students made similar comments including: “I would have changed the members of my group…”, “Group members rarely liked to work on the project outside of class…”, and “My group had a few people that were unmotivated and were willing to only do the minimum…”. Comments regarding time constraints indicated that students perceived a lack of time to work on the project as indicated by the following (and other similar comments): “I wish we would have had more time during the week…”, “designate times the groups HAD to work on the project…”, “If possible, I would enable students more time to complete research project…”, and “The timeline. The way it was set up, we were rushed to wrap up the project… more beneficial to have less time for the introduction/ methods and more time to get data/results.”

Responses from the second open-ended question, regarding how conducive the research project was to the student’s learning style, were varied. Of the seven responses, three were positive and included comments such as: “a great way to get a hands on learning experience…”, “I gain better understanding when I am hands on or working through the process myself …” and “I enjoy projects that require me to think creatively while also using logic to develop comprehensive solutions to problems. This project was multidimensional, and while challenging, it created the opportunity for students to learn more about the field they were studying.” Other responses indicated that students recognized some of the benefits of the research project, but still had reservations in terms of how conducive the experience was for them or even indicated that the learning experience was negative. One student listed several benefits of participating in the research experience but then concluded with “I just do not think it was a positive learning experience for me.” Other comments indicated that the project was stressful but recognized it as “a new experience that helped me better understand the process…” of research. Another student commented that the experience was conducive “in some ways, but mostly my experience was negative from the class.”

This manuscript describes the rationale for and implementation of an applied research experience into an EXS curriculum, designed to enhance hard and soft skill development. Scarce literature regarding the incorporation of applied research experiences into exercise science-related disciplines exist. Given the overwhelming evidence previously reported by investigators describing the incorporation of applied research experiences into traditional STEM undergraduate courses ( 3 , 7 , 14 , 20 ), the aim of this manuscript was to describe practical tools that could be used and/or adapted to incorporate applied research experiences into exercise science-related courses. We outlined seven steps that were successfully used to guide students through the applied research experience process. Additionally, we described the rationale for specific assessments designed to be consistent with primary course objectives, key course topics, and course learning outcomes.

Because perceptions of educational opportunities have a direct impact on student performance and engagement ( 4 ), another purpose of the manuscript was to evaluate students’ perceptions of an applied research experience. Our results help to provide a qualitative understanding of how EXS undergraduate students perceived the implementation of an applied research experience into an EXS undergraduate course. While students identified perceived challenges with the experience, several reported benefits of the experience. For example, a large majority (85.7%) of the responding undergraduate EXS students reported they believe the applied research experience should be continued in the EXS program (see Table 2 ). Perhaps the high percentage of positive student responses regarding the continuation of an applied research experience can be attributed to allowing students to develop a specific topic of interest within the EXS field, thus enabling students to explore career options. This is consistent with previous research which has shown that students having been engaged in applied research experiences perceive their experience as positively impacting their career path ( 3 ).

Overall, optional comments associated with Likert scale questions seemed to indicate that students perceived the applied research experience as an effective learning tool. Quantitative data indicated that almost 85% of students (53.6% “strongly agreed” and 31.1% “agreed”) that the research project was an enriching educational experience (see Figure 3 ). The opportunity to analyze and interpret data allowed them to practically apply what they were learning in the classroom. This suggests that (to some degree) the hard skills of data collection/analysis and the skill of interpreting results were practiced, although this was not directly measured in the study. Based on student responses to the optional comments associated with other Likert scale questions and the open-ended questions, students indicated that they were challenged to think creatively in order to develop comprehensive solutions to problems that arose throughout the semester. We speculate the soft skills of interpersonal communication and teamwork were practiced throughout the applied research experience as a result of conducting research within a research group. This speculation is supported by the emerging theme from an open-ended question identified as “group member dynamics.” Similar to FitzPatrick and Campisi ( 5 ), it was clear that some students perceived the applied research experience as an enriching educational opportunity that challenged them interpersonally.

Evidence suggests that the applied research experience was perceived as academically challenging. This finding is supported by both qualitative and quantitative data collected in response to the Likert scale question “The research project was academically challenging.” All optional comments in response to this question indicated students perceived the research project as academically challenging, which is consistent with quantitative data indicating that almost 93% of the respondents (46.4% “strongly agreed” and 46.4% “agreed”) perceived the project was academically challenging. These results coincide with other studies that have examined applied research experiences, specifically in STEM fields ( 7 , 13 , 14 , 17 ). This parallel of similar student perceptions between EXS and STEM fields suggest that EXS students receive similar benefits as previously noted in other academic fields; these findings support the need for applied research experiences in the EXS field.

Although the responses to several questions assessing the perception of the applied research experience were positive, students did express some concerns. Some students suggested they felt overwhelmed by the combination of work required for the applied research experience and the course material. Students perceived more applied learning to be beneficial, but very time consuming when paired with coursework and other responsibilities. “Time constraints” was identified as an emerging theme from one of the open-ended questions. One student suggested changing the layout of the class to include a one-hour lab would allow more time for group work and interaction with the instructor or a continuation of the project through an additional semester. Allowing additional time to conduct research has been previously reported as more beneficial overall in another study of undergraduate student perceptions of regarding applied research experiences ( 1 ). In the study by Bauer and Bennet ( 1 ), there was a strong relationship between length of time having participated in research and increased perceived benefit of the research experience. There are obvious logistical challenges associated with integrating a multi-semester applied research experience into an undergraduate EXS curriculum, however if feasible, there could potentially be numerous benefits including successful employment related to the students’ field of study ( 1 ).

Another identified theme was students’ concern with “group member dynamics”. Several student comments indicated that they encountered some type of difficulty working in their respective groups. These comments reflect similar concerns, regarding perceptions of peer group dynamics, across many undergraduate applied research initiatives in multiple fields ( 11 ). Researchers attempted to combat this known group dynamics problem by allowing students to “fire” a group member through following a specific protocol ( Figure 2 ) outlined in the beginning of the initiative ( 18 ). However, another study reported “personal interactions” as the second most valued outcome of an applied research experience, which included the development of friendships and relationships ( 3 ). While our results did not include specific references to this particular benefit, it is logical to speculate that some “group member dynamics” would prove to be difficult and challenging, while others would be more positive and beneficial.

One limitation to our study was the relatively small number of student responses. Approximately 29% (28 of 96) of the students completed the Qualtrics survey. The low number of responses could be due to the delayed administration of the survey. Also, because highly motivated responders, or students that received satisfactory grades, may be more likely to respond to the surveys ( 2 ), our results may be biased. Posing these questions during the last week of the semester may have improved the student response rate and thus limit the possibility of response bias. Another limitation to our study was the timing of online survey question development. Researchers speculate that designing a study around the initiative, or course, ex ante may improve cohesiveness between the initiative and the study’s findings by limiting the time between the termination of the course and administration of the online survey. This study was initiated after the first cohort of students were exposed to the applied research experience.

In summary, this paper describes the rational for and implementation of an applied research experience into an EXS curriculum and the students’ perceptions of the integration of an applied research experience into an EXS course. The seven steps for guiding students through the applied research experience, along with the description of assessments designed to be consistent with primary course objectives, key course topics, and course learning outcomes, may provide a framework for faculty within exercise-science related disciplines to incorporate applied research experiences into their curriculum. Understanding both the positive and negative perceptions of students regarding the implementation of applied research experiences may also prove useful for faculty interested in engaging students in the applied research process. Our results indicate most students believed the integration of an applied research experience into an EXS classroom is a valuable, but there is a need to address some negative aspects of the experience.

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Methodologies for Conducting Education Research by Marisa Cannata LAST REVIEWED: 19 August 2020 LAST MODIFIED: 15 December 2011 DOI: 10.1093/obo/9780199756810-0061

Education is a diverse field and methodologies used in education research are necessarily diverse. The reasons for the methodological diversity of education research are many, including the fact that the field of education is composed of a multitude of disciplines and tensions between basic and applied research. For example, accepted methods of systemic inquiry in history, sociology, economics, and psychology vary, yet all of these disciplines help answer important questions posed in education. This methodological diversity has led to debates about the quality of education research and the perception of shifting standards of quality research. The citations selected for inclusion in this article provide a broad overview of methodologies and discussions of quality research standards across the different types of questions posed in educational research. The citations represent summaries of ongoing debates, articles or books that have had a significant influence on education research, and guides to those who wish to implement particular methodologies. Most of the sections focus on specific methodologies and provide advice or examples for studies employing these methodologies.

The interdisciplinary nature of education research has implications for education research. There is no single best research design for all questions that guide education research. Even through many often heated debates about methodologies, the common strand is that research designs should follow the research questions. The following works offer an introduction to the debates, divides, and difficulties of education research. Schoenfeld 1999 , Mitchell and Haro 1999 , and Shulman 1988 provide perspectives on diversity within the field of education and the implications of this diversity on the debates about education research and difficulties conducting such research. National Research Council 2002 outlines the principles of scientific inquiry and how they apply to education. Published around the time No Child Left Behind required education policies to be based on scientific research, this book laid the foundation for much of the current emphasis of experimental and quasi-experimental research in education. To read another perspective on defining good education research, readers may turn to Hostetler 2005 . Readers who want a general overview of various methodologies in education research and directions on how to choose between them should read Creswell 2009 and Green, et al. 2006 . The American Educational Research Association (AERA), the main professional association focused on education research, has developed standards for how to report methods and findings in empirical studies. Those wishing to follow those standards should consult American Educational Research Association 2006 .

American Educational Research Association. 2006. Standards for reporting on empirical social science research in AERA publications. Educational Researcher 35.6: 33–40.

DOI: 10.3102/0013189X035006033

The American Educational Research Association is the professional association for researchers in education. Publications by AERA are a well-regarded source of research. This article outlines the requirements for reporting original research in AERA publications.

Creswell, J. W. 2009. Research design: Qualitative, quantitative, and mixed methods approaches . 3d ed. Los Angeles: SAGE.

Presents an overview of qualitative, quantitative and mixed-methods research designs, including how to choose the design based on the research question. This book is particularly helpful for those who want to design mixed-methods studies.

Green, J. L., G. Camilli, and P. B. Elmore. 2006. Handbook of complementary methods for research in education . Mahwah, NJ: Lawrence Erlbaum.

Provides a broad overview of several methods of educational research. The first part provides an overview of issues that cut across specific methodologies, and subsequent chapters delve into particular research approaches.

Hostetler, K. 2005. What is “good” education research? Educational Researcher 34.6: 16–21.

DOI: 10.3102/0013189X034006016

Goes beyond methodological concerns to argue that “good” educational research should also consider the conception of human well-being. By using a philosophical lens on debates about quality education research, this article is useful for moving beyond qualitative-quantitative divides.

Mitchell, T. R., and A. Haro. 1999. Poles apart: Reconciling the dichotomies in education research. In Issues in education research . Edited by E. C. Lagemann and L. S. Shulman, 42–62. San Francisco: Jossey-Bass.

Chapter outlines several dichotomies in education research, including the tension between applied research and basic research and between understanding the purposes of education and the processes of education.

National Research Council. 2002. Scientific research in education . Edited by R. J. Shavelson and L. Towne. Committee on Scientific Principles for Education Research. Center for Education. Division of Behavioral and Social Sciences and Education. Washington, DC: National Academy Press.

This book was released around the time the No Child Left Behind law directed that policy decisions should be guided by scientific research. It is credited with starting the current debate about methods in educational research and the preference for experimental studies.

Schoenfeld, A. H. 1999. The core, the canon, and the development of research skills. Issues in the preparation of education researchers. In Issues in education research . Edited by E. C. Lagemann and L. S. Shulman, 166–202. San Francisco: Jossey-Bass.

Describes difficulties in preparing educational researchers due to the lack of a core and a canon in education. While the focus is on preparing researchers, it provides valuable insight into why debates over education research persist.

Shulman, L. S. 1988. Disciplines of inquiry in education: An overview. In Complementary methods for research in education . Edited by R. M. Jaeger, 3–17. Washington, DC: American Educational Research Association.

Outlines what distinguishes research from other modes of disciplined inquiry and the relationship between academic disciplines, guiding questions, and methods of inquiry.

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Applied Research: Transforming Insights into Action

• November 1, 2021

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What is applied research?

Applied research refers to a non-systematic process of providing solutions to the specific problems or issues. These problems or issues can be on an individual level group or societal level as well. It is called ‘non-systematic’ due to its direct approach to finding the solutions. 

The process of applied research is often referred to as a scientific process because it uses the practical application of the available scientific tools to get to the determined solutions. 

Like normal research, in applied research too, the researcher identifies the problem, formulates the hypothesis, and perform experiments to test it. It further investigates the findings of a pure or basic research. 

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Types of applied research

There is total three types of applied research methods depending on their process of finding the solutions and they are:

• Evaluation research – this is a type of applied research that works on the existing information about the research topic. It then analyses this information to come to new outcomes in the research. It is mostly seen used in the businesses, let’s say research to figure out the loopholes in the marketing strategies. 
• Research and Developments – this method of applied research aims on producing new products and services depending to the latest market trends. Businesses use this approach to understand the new market trends and design their products according to the customers’ needs and expectations or make improvements in the existing ones. 
• Action research – this method of applied research focuses on providing practical solutions to business problems. This is a process using reflective inquiry limited to specific contexts. 

Applied research in various sectors with examples

Applied research is used widely in various fields of study and research, right from science to social science fields. Further we discuss how it is used in those fields with some if its examples:

Applied research in Business 

Applied research in business sectors is totally dependent on the products and services that they make. Applied research helps such businesses to identify market needs and trends, and then mold their products to best suit the customers. 

Applied research gives an upper-hand for the businesses as they are able to identify the gaps in their findings and also get the primary information on the target market preferences. 

• Applied research can help businesses improve their hiring process. 
• Applied research makes workplace efficient and policies. 
• Applied research helps point out skill gaps in the workplace. 

Applied research in Education 

Educational fields use applied research to test the teaching processes and better methods towards teaching and learning. Before introducing any new education policies, they are tested for their effectiveness with regards to teaching factors and classroom dynamics and then are implied into action. 

Educational applied research combines both quantitative and qualitative data gathering methods from primary sources. This data is then analyzed and interpreted using various methods to derive sensible results or conclusions. 

Applied research in this field is mostly devoted to formulating and testing the various approaches by experimenting with them under certain situations. It is based on empirical findings through accurate observations and descriptions. 

• Applied research to understand the scope of online learning initiatives. 
• Applied research to improve teacher to student classroom engagement.
• Applied research to test the new mathematics program.

Applied research in science 

As said earlier, applied research is often referred to as a scientific process because it uses the practical application of the available scientific tools to get to the determined solutions.

It is useful in various fields of physics, microbiology, thermodynamics, etc. 

• Applied research to find a cure to a disease. 
• Applied research to improve agricultural solutions.
• Applied research to test new lab equipment. 

Applied research in psychology

Researchers use applied research in psychology to determine workplace behaviours, HR and development within the organization to draw solutions. 

It is widely used in areas where the thinking process of individuals is experimented with by the researcher and then the solutions are drawn to best suit their behaviour. 

• Applied research to regulate a motivated work strategy to make the employees attend regularly. 
• Applied research to determine the new ways of dealing with depression.
• Applied research to improve students’ grades by focusing on practical education. 

Applied research in health

In the medical field, applied research is mostly used as an evidence-based and solution-oriented method to test new medicines. 

It works by merging scientific knowledge and methods with health experiences to arrive at evidential and verifiable results. 

• Applied research to determine the healing property of a specific medicine. 
• Applied research to specify the side effects of a certain medicine. 
• Applied research on a new way of performing heart surgery. 

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Methods of applied research

Applied research makes use of both quantitative and qualitative methods of data collection to analyze and draw verifiable conclusions. 

Some of the methods of collecting data for applied research are as follows:

• Interviews – this is a method where the data is collected on a one-on-one basis. An interviewer asks questions to the subjects related to the research topics. It can be conducted through online channels, through a video call, audio recorder, etc. despite being time-consuming, it stands as the most reliable source of information for the research study.
• Surveys/Questionnaires – this method involves questions related to the research topic where the respondents are expected to record their responses that best suits their opinions. These questions can be close-ended (provides quantitative data) and open-ended questions (provides qualitative data). 
• Data reporting – it is gathering information for a research topic that can be a potential source of data for future researches. It can be published in a newspaper, magazine or a report. 
• Observation – this method includes observing the subjects in their environment to get to know their behaviours and thoughts. Though this can be influenced by the researcher’s biases. 
• Focus groups – this includes gathering data from a group of people about a certain issue. The researcher gathers a sample of individuals who have faced the issue and ask them open-ended questions.

Advantages of applied research

• It is bias-free as it tests empirical evidence to arrive at valid outcomes. 
• It has a systematic process to arrive at solutions.
• It is highly helpful when you have to find solutions to specific problems. 

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Disadvantages of applied research

• It is not flexible in nature is restricted to deadlines. 
• As it focuses on finding solutions to specific problems, its results cannot be generalized. 

Applied research vs Basic research

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383 Exciting Education Research Topics

Education is vital to every person’s career and life success. People enrolled in higher education programs are 48% less likely to be incarcerated. Moreover, individuals with at least a Bachelor’s degree have the highest employment rates ( 86% ). Thus, investing time and effort in proper education is the best decision you can make in your young years.

Whether you’re interested in studying education or researching this subject for your classes, you will surely benefit from our detailed list of education research topics. Our experts have prepared research suggestions for students of all levels to aid you at every step of your education studies. Read on to find the best pick for your assignment.

• 🔝 Top-15 Research Titles about Education
• #️⃣ Quantitative Research Topics
• ️📋 Qualitative Research Topics
• 🎒 Titles about School Issues in 2024
• 🦼 Research Topics on Special Education
• 👶 Early Childhood Education
• 🧠 Educational Psychology
• 🧸 Child Development Topics
• 👩🏻‍💼 Educational Management Research Topics
• 📑 Dissertation Topics

🏫 Ideas of a Quantitative Research Title about School Problems

🔗 references, 🔝 top-15 research titles about education for 2024.

If you want to write a compelling paper, select an appropriate topic . You can find a unique research title about education in our list below and simplify your writing process.

• The role of education in eradicating poverty.
• The impact of technology on modern learning.
• The influence of social media on effective learning.
• A comparative analysis of student loans and debt accumulation.
• Effective approaches to student privacy and safety in schools.
• How does the school leadership experience shape a student’s personality?
• Evaluate the significance of assistive technology in special education.
• The role of parents in education.
• The importance of multicultural education.
• Homeschooling vs. regular schooling.
• The role of teachers as moral mediators.
• Approaches to prevent mental health issues among college students.
• The effectiveness of standardized tests in graduate schools.
• Should the government ban boarding schools?
• The importance of preschool education.

️#️⃣ 30 Quantitative Research Topics in Education

Quantitative research topics in education require extensive quantitative analysis and assessment of stats and figures. They involve doing calculations to support the research findings and hypotheses . The following are exciting topics on quantitative research you can use:

• The link between the e-learning environment and students’ social anxiety levels.
• Work hours and academic success relationship .
• The correlation between homeschooling and GPA.
• The effectiveness of parental involvement in child education: Statistical evidence.
• Motivation and learning relationship analysis .
• An analysis of the divide between tuition rates in private and public universities.
• The relationship between high tuition fees and poor education.
• Intervention strategies addressing six negative emotions .
• The connection between the national debt and student loans .
• Comparing students’ cognitive development scores in boarding and day schools.
• Formative assessments and raising attainment levels .
• The link between student well-being and teacher fulfillment.
• The correlation between students’ academic workload and mental wellness .
• Traditional or online education: which is better ?
• The impact of socioeconomic status on academic performance.
• The link between urbanization and education development.
• The impact of school uniforms on school safety .
• The effects of teaching methods on student performance.
• A correlation between higher education attainment rates and unemployment rates.
• The race and class impact on academic performance .
• The impact of government policies on educational quality.
• The correlation between coding courses and a child’s cognitive development score.
• COVID-19 impact on student academic performance .
• Comparing the outcomes of data science programs for students of various specialties.
• The impact of student leadership on academic performance .
• Video games and their impact on students’ motivation .
• The link between social media use and psychological disorders’ incidence among students.
• The effects of students’ educational attainment on their post-graduation economic position.
• Time management: impact on the academic performance .
• The impact of educational field experiences on students’ career preparedness.

📋 30 Qualitative Research Topics in Education

Numerous issues in education need extensive research. Qualitative research is a way to gain an in-depth understanding of problems facing students and teachers. Below are qualitative research topics in education you can use for your academic project:

• Internet use among elementary school children.
• Educational challenges of students with autism .
• Teachers’ perspectives on the best learning strategies for autistic children .
• A case study of the significance of mental health education in schools.
• Inclusive classroom case study .
• The effects of learning conditions in developing countries.
• Early childhood educators’ perspectives on critical preschool classroom experiences.
• A case study examining why new teachers leave the profession .
• Students’ perceptions of their computer literacy skills.
• Coping strategies of schoolchildren’s parents from food-insecure households.
• Case study of a gifted student .
• High school students’ experiences of virtual learning .
• Students’ perceptions of lockdown browsers.
• Case study of learning disabilities: autism .
• The impact of alcoholism on student performance: A case study.
• A qualitative study of adult learners’ self-regulation in a digital learning environment.
• Human resources challenges in the higher education sphere .
• Academic leadership challenges in nursing schools .
• Students’ motivation to learn a rare foreign language .
• Challenges and barriers to equal opportunities in education .
• The role of teachers in improving learning for disabled children .
• Student loans : The effects on student career life.
• Korean Americans’ challenges in education .
• Teachers’ beliefs about their role in shaping the personalities of students.
• How to curb bullying in schools: Educators’ perspectives.
• Challenges and benefits of today’s student life .
• Remote learning : Advantages and disadvantages from students’ perspective.
• Interviews with teachers on the persistence of racism in schools .
• Learning challenges among people of color in public schools .
• Are students from lower social classes stigmatized in schools?

🎒 Research Titles about School Issues in 2024

Education research is vital in explaining and addressing fundamental issues affecting schools. It explores learning approaches, teaching practices , or educational changes after the pandemic. Choose your ideal research title about school issues from this list:

• The importance of standardized tests. Analyze the pros and cons of standardized tests and the consequences for students who fail the test.
• Government policy on education funding. Examine the flaws in the formula for financing schools and assess whether it is constitutional.
• Computer literacy in schools. Conduct a comparative assessment of effective methods to ensure all schools have enough resources to teach computer studies.
• Digital transformation in education. Analyze issues associated with online learning . Talk about the instructional tools that improve remote education.
• The effects of homeschooling . Discuss the advantages and disadvantages of homeschooling and its cognitive impact on young children. Examine its sustainability in modern education.
• School safety in the 21st century. Explore the government policies on gun violence and approaches to prevent school shootings.
• Disciplinary policies in schools. Analyze the leading causes of suspensions and expulsions in schools. Examine the impact of reform policies on preventing undisciplined students’ transition into the juvenile system.
• The teaching of evolution . The is an ongoing debate about how to teach students about the origins of life. You can conduct a qualitative study examining parents’ or teachers’ attitudes toward this question.
• Student loans in higher education. Conduct a case study of students who are beneficiaries of student loans. Assess the effects of debt accumulation on their present careers.
• Bullying in schools. Study the causes and effects of bullying on students. Explore viable solutions to prevent bullying and discipline bullies.

🦼 53 Research Topics on Special Education

Special education is vital in modern society since many students have different disabilities and special needs. Teachers adopt accommodative practices to ensure total inclusivity for effective learning. Special education entails attending to students’ special needs using appropriate resources and accessible learning tools.

The following are research topics on special education to inspire your academic paper :

• Government policies on special education. Explore the policy frameworks and implementation guidelines that advocate special needs education. Talk about learning resources, accessibility , and transition rates to higher education and career life.
• Disabled children in early childhood education. Analyze the impact of special education on young children and determine strategies for effective teaching . Identify the challenges and possible solutions for enhancing seamless learning.
• The role of a school principal in improving special education. Discuss the approaches a principal can introduce to support disabled students. Talk about the instructions that teachers should adopt to guarantee inclusivity .
• Global impact of learning disabilities . Evaluate strategic approaches to special education in different countries. Analyze students’ responses to these methods and possible career paths in various countries.
• Coping mechanisms of special needs children. Investigate stress reactions and emotional security among children with disabilities. Explore methods that teachers can adopt to help students cope with new environments.
• The role of workshops on special educators’ mental wellness. Explore the causes and effects of stress and burnout on teachers in special education. Talk about acceptance and commitment therapy in alleviating depressive episodes.
• Social-emotional development in special education. Explain effective ways to promote social and emotional engagement of special needs children. Discuss parent and teacher training interventions and evaluate the results and implications for future research.
• Impact of technology on special education. Analyze the benefits of assistive technology in improving learning and give examples of tools used in special education. Talk about the barriers faced by special needs children, which result in learning exclusion .
• Discrimination and stigmatization . Conduct a case study of physically disabled children attending regular schools. Explore the psychological impact and trauma faced by special needs children. Present possible recommendations for better learning conditions.
• Effects of parenting style on special needs children. Analyze how different parenting styles can affect the behavior of special needs children. Explore a group of high school students with various disabilities .
• Behavioral issues in early childhood special education. Explore the influence of negative parent-child interactions on the behavior of children with disabilities. Discuss problem-solving models for correcting behavior and creating a positive learning environment.
• Patterns of language acquisition in children with disabilities. Compare language development in healthy and special needs children. Discuss the significance of communication skills in the early years and their effects on future learning.
• Social participation barriers. Compare the barriers to social participation in school faced by students with hearing and visual impairment. Talk about the assistive technologies that offer solutions and prevent social obstacles.
• Teaching strategies for special needs children. Analyze the effectiveness of various teaching approaches regarding their impact on the academic performance of special needs children.
• Disciplining students with disabilities. Explore appropriate methods of enforcing discipline among special needs students without raising controversies. Address the rights of students and ways of encouraging good behavior.

Here are other themes you can consider when writing on a special education topic:

• Discuss collaborative teaching strategies for special educators.
• Special education and teacher burnout .
• Speech-language therapists: The benefits of working in an inclusive environment .
• Discuss the challenges faced by special needs children.
• Special education disability categories .
• Why should special needs children learn in a special school, not a mainstream one?
• Effects of positive social interactions on children with disabilities.
• Teaching strategies for pupils with special educational needs .
• How to prevent bullying of special children?
• Analyze the history of early childhood education for special needs children.
• The inclusion of learners with special educational needs .
• Should the government make special education free for all students?
• The role of parents in instilling self-confidence in their children with disabilities.
• Exceptional children: introduction to special education .
• Why do students with autism face bullying more often than regular students?
• Should teachers be trained in handling special needs children?
• Field experience report and reflection: special education .
• Discuss effective teaching practices in special schools.
• Inclusive learning environment: Does it hinder or promote academic performance?
• Learning disability: special education strategies .
• Government policies on special education.
• A comparative analysis of special education in different countries.
• American special education and early intervention .
• Why are parents of children with disabilities prone to stress?
• Standardized tests for evaluating special needs children in early childhood education.
• Technology integration in special education .
• How to identify gifted children with different disabilities?
• An analysis of education equality for children with disabilities.
• The effect of training employees to work with special education children .
• The effects of teachers’ attitudes on students with dyslexia .
• Special needs children should have equal access to education.
• Special education: parent–professional collaboration .
• Is distance learning effective in special education?
• Evaluate digital literacy in special schools.
• Teacher leadership in special education .
• The importance of peer support in special education.
• Discuss strategies to motivate and retain special educators.
• Autism spectrum disorder and special education issues .

👶 53 Research Topics for Early Childhood Education

Early childhood education is a vital phase that sets the proper academic foundation for students. The early years of a child are essential since education provides a base for future learning abilities and social development .

Below are research topics for early childhood education to inspire your thesis:

• Child development stages . Compare different theories of child development. Analyze the role of the environment and genetics or explain the changes that occur from conception until a child is fully developed.
• The role of parents in early childhood education. Explore parents’ contribution to a child’s cognitive development and behavioral patterns . Discuss the importance of consistent communication with children for their proper development.
• The significance of field activities in preschool. Evaluate the effects of singing, dancing, drawing, painting, and physical exercise on cognitive development. Discuss the teachers’ attitudes toward child performance.
• The history of early childhood theorists. Assess the contribution of Maria Montessori to early childhood education. Describe her approach and explain why multi-sensory learning is essential.
• Computer literacy in young learners. Explore the reasons for introducing computer lessons in preschools. Discuss why young learners need to embrace technology but with strict limitations. Talk about the pros and cons of screen time for young children.
• Development of cognitive abilities in the early years. Analyze how children acquire knowledge, develop skills, and learn to solve problems. You can also focus on the brain development in the early years.
• The importance of play in child development. Explain how playing stimulates the brain and encourages social and emotional development. Give examples of child play and toys and discuss their impact.
• Early detection of special needs children. Explain how preschool educators can detect signs of learning disabilities. Talk about the symptoms of autism, ADHD , and other conditions affecting young learners.
• Teaching strategies in early childhood education. Explore the different teaching approaches used by educators for effective learning. Discuss play-based , inquiry, direct instruction , and project methods and assess their impact on young learners.
• Diversity in preschool. Compare opportunities to learn about cultural differences in homeschooling and regular schooling. Highlight the benefits of diversity for a child’s cognitive development.
• Child trauma . Explain how educators are trained to detect trauma in preschool kids. Talk about the signs of traumatic stress and its impact on a child’s development.
• Legal regulations in early childhood education. Explore the objective of public regulation of education. Discuss children’s rights to education and the regulatory bodies that ensure their protection.
• Contribution of Friedrich Froebel . Explore Froebel’s advocacy of an activity-based approach to early childhood education. Talk about the importance of creative and structured learning for developing minds.
• Effects of social interaction. Discuss the significance of socializing on a child’s cognitive development. Explain why educators should incorporate social activities in preschool to boost a child’s confidence.
• Importance of childcare centers . Evaluate their significance in developing emotional, social, and communication skills. Talk about the safety and health of children in preschool.

Here are some more exciting topics about early childhood education:

• The significance of physical books for preschool children.
• Best practices in early childhood education .
• The effects of divorce on the cognitive development of a preschool child.
• The influence of parents on young children’s moral development .
• Interview with an early childhood professional .
• Teachers’ attitudes toward children with ADHD in preschool.
• Effects of technology in an early childhood class.
• Impact of early childhood experience on the development of the personality .
• The significance of kindergarten in children’s development.
• How does unlimited screen time affect a child’s brain?
• Arts and play in early childhood development .
• Discuss the environmental factors that influence a child’s development.
• What is the observational strategy in early childhood training?
• Early childhood education: leadership and management .
• Significance of outdoor play in kindergarten learners.
• The role of vision therapy in young autistic children.
• Teaching philosophy in early childhood development .
• The influence of video games on young children’s learning outcomes.
• Discuss Vygotsky’s theory of socio-cultural learning.
• Early childhood profession in Australia .
• An analysis of the practical implications of early childhood learning.
• Discuss the objectives of international agreements on early childhood education.
• Environment in early childhood education .
• The barriers and challenges hindering young children’s effective learning.
• Genetic influences on a child’s behavior.
• Curricular issues in early childhood education .
• The significance of play in enhancing social skills .
• How does storytelling improve cognitive development?
• Early childhood safety considerations .
• Does early childhood development affect an individual’s personality?
• The effect of green classroom environment on young children.
• Early childhood education standards and practices .
• The role of diet on child development.
• The influence of culture on a child’s behavior.
• Overcoming stereotypes in early childhood education .
• The impact of bullying on young children.
• Emotional development in early childhood education.
• Stress in early childhood education .

🧠 53 Educational Psychology Research Topics

Educational psychology studies human learning processes, such as memory, conceptual understanding, and social-emotional skills. It covers both cognitive and behavioral aspects. Below are interesting educational psychology research topics to inspire your academic project:

• History of educational psychology. Explore the origin of educational psychology and the contributions made by its founders. Discuss the formal learning steps according to Johann Herbart.
• Young learners vs. adult learners. Explain the difference between learning as a child and an adult. Describe the challenges encountered and problem-solving skills demonstrated by children and adults in different situations.
• Significance of inspirational teaching. Explore the gender differences in teaching strategies. Discuss the pros and cons of incorporating emotions when teaching. Present the findings and implications for student performance.
• Emotion-based learning. Conduct a comparative study among autistic children and regular children in preschool. Explain how emotion-based teaching influences cognitive development and corrects learning impairments in autistic children.
• Importance of discipline models. Construct a case study of high-school students engaging in extra-curricular activities. Establish a connection between discipline models and high achievements. Talk about the psychological impact of a strict routine on shaping an individual’s personality.
• Effects of language challenges. Explore how language impacts the learning abilities of young children and how it may affect a student’s personality and performance later.
• Philosophers of education. Present a comparative evaluation of the history of education philosophers. Talk about the approaches of Juan Vives, Johann Herbart, and Johann Pestalozzi and their contribution to educational psychology.
• Impact of culture on education. Explore how culture can strongly influence an individual’s perception of education. Discuss the positive and negative aspects of culture from modern and historical angles.
• Educational psychology in rural schools. Evaluate the ethical, professional, and legal frameworks of education in rural contexts . Talk about the challenges faced by educators in rural areas.
• Effects of motivation on student performance. Explain the importance of motivation in students. You can focus on high-school learners and assess the effectiveness of a particular system of rewards for good performance.
• Language and literacy in education. Identify and define language issues during early years and the implications for future achievements. Talk about reading and language barriers affecting young children.
• Bell curve approach. Explore the fairness of the bell curve system of grading. Discuss the history of this method and its pros and cons. Explain its educational relevance and role in motivating students.
• Positive psychology in education. Evaluate the role of positive psychology in encouraging student performance. Analyze how schools can integrate mental health education into teaching achievement and accomplishment.
• Stress management techniques. Suggest the best approach to managing academic stress and preventing depression among students. Talk about the leading causes and effects of stress among college students and effective coping techniques.
• Impact of peer pressure . Explain the upsides and downsides of peer groups in school-going children. Discuss the effects of peer pressure on the moral conduct of students.

Here are some more examples of educational psychology topics for your research writing:

• The importance of educational psychology.
• Educational psychology: theory and practice .
• How does a child’s brain develop during learning?
• The risk factors and outcomes of bullying.
• Educational psychology: changing students’ behavior .
• The significance of peer interaction in adolescents.
• Effects of substance abuse on student performance.
• Using educational psychology in teaching .
• The influence of cartoons on a child’s mental state.
• Discuss teenage rebellion against parents.
• Reinforcers in classrooms: educational psychology in teaching .
• The relationship between speech disorders and cognitive development.
• An analysis of psychological theories in education.
• Educational psychology: behaviorism .
• The impact of media violence on child development.
• Explore the trends in educational psychology.
• School facilities in educational psychology .
• The effect of gender stereotyping in schools.
• Autism spectrum : the perspectives of parents and teachers.
• Psychology of learning and memory .
• The influence of the authoritarian parenting style on student performance.
• The impact of single parenting on children’s cognitive development.
• Cognitive learning and IQ tests .
• Discuss major challenges in mathematical thinking.
• An analysis of social-emotional development in children.
• Pathways of adult learning .
• The influence of modern technology on educational psychology.
• The importance of critical thinking in learners.
• Learning styles and their importance .
• Should schools teach moral behavior?
• A comparative study of psychological disorders .
• Anxiety causes and effects on language learning .
• Leading causes of mental health issues among students.
• The significance of professional educators.
• Student motivation and ways to enhance it .
• Discipline approaches for moral development.
• The mechanism of character development in young children.
• Learning and memory relations .

🧸 53 Child Development Topics to Explore

Child development is an important field of study since it investigates the changes a person undergoes from conception to adolescence. Finding a unique topic on child development may be challenging. We offer a comprehensive list of child development topics to simplify your research project:

• Child development theories. Explore significant theories and their importance in explaining children’s social and emotional development. For example, talk about the contributions of Jean Piaget to understanding children’s cognition.
• The significance of social interaction. Evaluate the importance of socialization in a child’s behavior. Present the outcomes of interacting with peers and its influence on a child’s personality .
• Mental health in early childhood development. Explain why mental health is often overlooked in young children. Discuss the signs of psychological problems in children.
• Jean Piaget’s perspective on child development. Explore the history of Piaget’s philosophy and the importance of child psychology in the modern world. Talk about the relevance of each developmental stage.
• Early childhood personality. Study personality development at a young age. Discuss how childhood shapes an individual’s personality throughout their life.
• The impact of gender roles in child development. Explore what part parents and educators play in teaching children about gender roles. Discuss the possible effects of learning gender roles on shaping a child’s perception and actions as an adult.
• The significance of the environment. Explain the role of the environment in developing the human mind during childhood. Consider such environmental factors as friends , housing, climate, and access to basic needs.
• Communication skills in language development. Explain the importance of consistent communication with a child from conception to the early years. Talk about parent-child bonding through communication and how it influences language development.
• The influence of culture on child development. Conduct a comprehensive study of how cultural differences impact a child’s development. Talk about the cultural norms that children are trained to accept as they grow from infancy to adulthood.
• Importance of child observation . Explain why observing a child during the early years is crucial to identify issues in achieving developmental milestones. Discuss the role of parents and educators in child development.
• Attachment theory by John Bowlby. Explore the attachment theory and why interpersonal relationships are essential among humans. Talk about the significance of an emotional bond between a child and a parent to facilitate normal development.
• Erickson’s stages of development. Analyze the eight phases of human development. Discuss the importance of each stage and how it affects an individual’s future behavior and personality.
• Asynchronous development. Explore the challenges of asynchronous development to parents, educators, and the child. Talk about the possible causes and effects of asynchronous development.
• Child research methods. Conduct a comparative analysis of infant research methods. Discuss the key challenges when studying infants. Talk about such approaches as eye tracking, the sucking technique, or brain imaging technology.
• Ethical considerations in child research. Explore the ethical dilemmas when conducting studies on children. Describe the verbal and non-verbal indicators that researchers can use as a child’s consent to participation.

Here are more exciting topics on child development:

• Discuss Piaget’s theory of child development.
• Child development from birth to three wears and the role of adults .
• Importance of play in improving gross motor skills .
• Why do parents need to understand child development theories?
• Attachment and its role in child development .
• The role of music in increasing focus in children.
• Discuss the five steps of cognitive development.
• Child development and education: physical exercise .
• Ego formation in a child.
• Discuss positive parenting styles.
• Cognitive domain of child development: activity plan .
• Effects of food insecurity on child development.
• Explore Vygotsky’s social-cultural theory.
• Gifted students: child development .
• Child development: The role of a mother .
• Importance of language stimulation in young children.
• Physical education: impact on child development .
• Significance of movement in child development.
• An analysis of effective parenting styles.
• Child development theories .
• The influence of genetics on child development.
• The role of a balanced diet in child development.
• Educative toys’ role in child development .
• Why are children more creative than adults?
• The importance of pretend-play on development.
• Connection between screen time and child development .
• Discuss social development theory in relation to children.
• A comparative analysis of Vygotsky’s and Piaget’s theories.
• Child development: ages one through three .
• Discuss the impact of literate communities on child development.
• How can parents deal with stress in children and teenagers?
• Child development and environmental influences .
• The environmental influences on a child’s behavior.
• Pros and cons of imaginary friends.
• The impact of dyslexia on child development .
• Effective approaches in language development.
• The role of books in child development.
• Child development during the COVID-19 pandemic .

👩🏻‍💼 53 Educational Management Research Topics

Educational management is a collection of various components of education. Research topics cover multiple concepts ranging from administrative to financial aspects of education. Here are inspiring educational management research topics for your perusal:

• Higher education leadership . Explore the qualifications of higher education leaders in developed countries. Discuss their implications for pursuing a career in educational management.
• A review of the educational ecosystem. Explore the governing bodies in education. Talk about the government ministries, statutory bodies, principals, administrative personnel, educators, and non-teaching staff. Explain why management is vital at all levels.
• Significance of extra-curricular activities. Explore the role of co-curricular activities in maintaining a holistic education approach. Discuss the types of activities and their benefits for student performance.
• Curriculum planning . Explore the strategies used in curriculum planning and the factors affecting its development, evaluation, and implementation. Discuss the three stages involved in this process.
• Friedrich Frobel’s approach to curriculum development. Explore the key educational components at the preschool level and describe the forms of knowledge. Explain Frobel’s focus on life, knowledge, and beauty.
• The impact of technology. Explore the significance of technology in education management. Investigate such issues as budget limitations, data security concerns, and poor network infrastructure.
• Importance of financial policies in schools. Explain how economic policies offer administrative support to ensure seamless operations. Talk about the revenue streams, school funds, government subsidies, grants, and allowances.
• Health and physical development . Explain why institutions need a health and physical education department. Talk about healthy living and the importance of exercise.
• Significance of human resources . Discuss the role of the HR department in educational institutions. Present the benefits of specific organizational structures and operational policies in ensuring smooth functioning.
• The objectives of educators. Explore the strategies for planning and implementing lessons. Talk about the importance of pedagogical practices in educational management. Discuss the effects of the classroom-management approach.
• National examples of educational management. Conduct a comparative study on Australia , Finland, and Singapore. Discuss the school structure, curriculum, and government policies and involvement.
• Parents’ perception of educational administrative policies. Discuss the parents’ attitudes toward policies from preschool to the university level. Explore both private and public institutions.
• The goals of education ministries. Explore the objectives of the education ministry, such as designing, implementing, monitoring, and evaluating educational legislation. Discuss the leadership roles in ensuring smooth operations of learning institutions.
• Challenges of educators. Explore the leadership styles of educators in high school. Talk about the discipline strategies for dealing with rebellious teenagers and cases of indiscipline.
• Special education. Analyze the features of education management in special schools. Discuss the process of developing individual education plans and dealing with special education issues, such as budgeting or parent education.

Here are some more engaging topics in educational management you can check out to get inspiration:

• Discuss the critical issues of classroom management .
• Why is the UK education system successful ?
• Effects of guidance on student performance.
• The effectiveness of standardized tests for measuring student performance.
• Corruption in the education sector: Democratic Republic of Congo .
• The features of managing distance learning systems .
• The role of a principal in school functioning.
• The financial issues in the secondary education area in the US .
• The relationship between a principal’s leadership style and teachers’ satisfaction.
• The link between classroom management and student behavior.
• School principals as agents of change .
• Effects on instructional-based learning on academic performance.
• An analysis of interactive teaching methods.
• School-community partnership and its benefits .
• The influence of government policies in educational administration.
• Discuss educational leadership in the digital age.
• Program quality assessment: teaching and learning .
• The role of educators in moral discipline.
• The impact of a poor educational system.
• The lack of sex education in the Thai educational system .
• An analysis of Montessori education .
• Importance of curriculum planning.
• Teachers’ certification: is it necessary ?
• The effects of progressive education .
• The influence of the environment on academic performance.
• How can a principal improve the quality of special education ?
• Discuss the impact of teacher motivation.
• Does strict school supervision translate to high academic performance?
• Effectiveness of educational leadership management skills .
• Can poor management of schools result in increased student indiscipline?
• The influence of good administrative leadership in education.
• Educational leadership and instruction differentiation .
• Factors preventing effective school management.
• Explore biases in educational administration.
• The use of standardized tests in college admissions .
• The link between academic performance and school accountability .
• Gender equality in educational management.
• Financial issues facing US higher education .

📑 15 Dissertation Topics in Education

Dissertation research is more complex than usual research for college or university assignments. It requires more originality and extends over a longer period. Here are some dissertation topics in education you can consider for your forthcoming dissertation project:

• Examine the impact of COVID-19 social isolation on students of your university.
• Social media impact on English language learning .
• Cross-cultural communication and conflict management at your chosen online study course.
• Principals’ concerns and attitudes toward social distancing policies in Texas schools.
• Formative assessment: impact on student achievement .
• A case study of children’s first and second language use in play-based interactions in a private kindergarten.
• The impact of present-day economic pressures on the K-12 curriculum development in the US: Teachers’ and policymakers’ perspectives.
• How does inclusion impact autistic children ?
• Collaborative inquiry and video documentation to facilitate school teachers’ critical thinking competencies: Analysis of the INSIGHT project at a public school .
• Using computer-based reading interventions for at-risk preschoolers: Teachers’ perspectives.
• Homeschooling and its impact on learners .
• Relationship between the Math assessment method and student self-esteem.
• Parents’ attitudes toward the use of technology in elementary school.
• Impact of classroom technology on learner attitudes .
• Impact of teacher training on student attainment: An EU study.
• The link between homework load and student stress levels.
• How common are shootings in American schools?
• The impact of classroom size on academic performance in elementary schools.
• The relationship between school safety measures and student psychological well-being.
• How effective is an inclusive school environment in fostering better academic outcomes?
• The impact of socioeconomic factors on school dropout rates.
• What is the role of school policies in addressing cyberbullying among students?
• The influence of socioeconomic aspects on the quality of education in public schools.
• How prevalent is bullying in public schools?
• The influence of standardized testing on student success.
• How important is parent involvement in the learning process?
• The effect of extracurricular overload on student anxiety development.
• How does peer pressure affect student decision-making?
• The influence of inclusive education on the performance of students with learning disabilities.
• How can AI technology in education engage students in more active learning?
• The link between socioeconomic background and access to educational resources.
• The impact of government funding on the education system.
• How limited is access to mental health support in high schools?

Now that you have a comprehensive list of educational research topics of all complexity levels, you can easily ace any assignment for your Pedagogy course. Don’t hesitate to share this article with your peers and post a commentary if any topic has been helpful to you.

❓ Education Research Topics FAQ

What are some good research topics in education.

Well-chosen topics for educational research should be carefully scoped and relevant to your academic level and context. It’s vital to cover hot issues by linking theory and practice, thus ensuring that your study is valuable and related to present-day education.

What is an example of educational research?

Educational research covers many subjects and subdisciplines, so you may focus on any area important to you. It may be a special education class where you can approach teachers or observe students with special needs . Or it can be educational leadership research, where you will search for new, efficient ways of school administration for principals.

What topics should be addressed in sex education?

Sex education is a pressing issue in many schools worldwide, as teenage pregnancy rates are increasing. You may approach this subject by examining the attitudes to sex education among parents with different religious affiliations. Or you can compare the rates of teenage abortion and pregnancies in states with and without sex education in the formal curriculum.

What is action research in education?

Action research is a combination of practice and research in one endeavor. You should first study theory, develop an assumption that can be applied in practice, and then implement that method in your educational setting. After the intervention, you measure the outcomes and present findings in your research paper, thus concluding whether your assumption was valid.

• Child Development Basics | CDC
• Issues and Challenges in Special Education | Southeast Asia Early Childhood Journal
• Social Issues That Special Education Teachers Face | Chron
• Problems in Educational Administration | Classroom
• Early Childhood Development: The Promise, the Problem, and the Path Forward | Brookings
• Educational Psychology and Research | University of South Carolina
• 5 Big Challenges for Schools in 2023 | EducationWeek
• Quantitative Methods in Education | University of Minnesota
• Qualitative vs. Quantitative Research | American University

414 Proposal Essay Topics for Projects, Research, & Proposal Arguments

725 research proposal topics & title ideas in education, psychology, business, & more.

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80+ Great Research Titles Examples in Various Academic Fields

Coming up with a research title for an academic paper is one of the most challenging parts of the writing process. Even though there is an unlimited quantity of research titles to write about, knowing which one is best for you can be hard. We have done the research for you and compiled eighty examples of research titles to write on. Additionally, we have divided the research titles examples into sections to make them easier to choose.

Research Study Examples of Current Events

Examples of research topics on ethics, title of research study examples on health, research paper title examples on social concerns, examples of research title on art and culture, example of research interest in religion, samples of research study topics on technology, research examples of environmental studies, good research title examples on history, specific topic examples regarding education, research title examples for students on family, food, and nutrition, research problems examples computer science, samples of research title about business marketing and communications, sample of research study topics in women’s studies, research problem example on politics, what are some examples of research paper topics on law, final words about research titles.

When it comes to choosing a good sample research title, research is one of the best tips you can get. By reading widely, including your school notes and scholarly articles, you will have a problem/line of interest examples in research. Then, you can derive any question from areas that appear to have a knowledge gap and proceed with researching the answer. As promised, below are eighty research title examples categorized into different areas, including social media research topics .

• Discuss the peculiar policies of a named country – for example, discuss the impacts of the one-child policy of China.
• Research on the influence of a named political leader, say a president, on the country they governed and other countries around. For instance, you can talk about how Trump’s presidency has changed international relations.
• Conduct an analysis of a particular aspect of two named countries – for example, the history of the relationship between the U.S. and North Korea.
• Compare the immigration laws in two or more named countries – for example, discuss how the immigration laws in the U.S. compares with other countries.
• Discuss how the Black Lives Matter movement has affected the view and discussions about racism in the United States.
• Enumerate the different ways the government of the United States can reduce deaths arising from the unregulated use of guns.
• Analyze the place of ethics in medicine or of medical practitioners. For instance, you can discuss the prevalence of physician-assisted suicides in a named country. You may also talk about the ethicality of such a practice and whether it should be legal.
• Explain how recent research breakthroughs have affected that particular field – for instance, how stem cell research has impacted the medical field.
• Explain if and why people should be able to donate organs in exchange for money.
• Discuss ethical behaviors in the workplace and (or) the educational sector. For example, talk about whether or not affirmative action is still important or necessary in education or the workplace.
• Weigh the benefits and risks of vaccinating children and decide which one outweighs the other. Here, you might want to consider the different types of vaccinations and the nature and frequency of associated complications.
• Investigate at least one of the health issues that currently pose a threat to humanity and which are under investigation. These issues can include Alzheimer’s, cancer, depression, autism, and HIV/AIDS. Research how these issues affect individuals and society and recommend solutions to alleviate cost and suffering.
• Study some individuals suffering from and under treatment for depression. Then, investigate the common predictors of the disease and how this information can help prevent the issue.

Tip : To make this example of a research title more comprehensive, you can focus on a certain age range – say, teenagers.

• Discuss whether or not free healthcare and medication should be available to people and the likely implications.
• Identify and elucidate different methods or programs that have been most effective in preventing or reducing teen pregnancy.
• Analyze different reasons and circumstances for genetic manipulation and the different perspectives of people on this matter. Then, discuss whether or not parents should be allowed to engineer designer babies.
• Identify the types of immigration benefits, including financial, medical, and education, your country provides for refugees and immigrants. Then, discuss how these benefits have helped them in settling down and whether more or less should be provided.
• Discuss the acceptance rate of the gay community in your country or a specific community. For example, consider whether or not gay marriage is permitted if they can adopt children, and if they are welcome in religious gatherings.
• Explore and discuss if terrorism truly creates a fear culture that can become a society’s unintended terrorist.
• Consider and discuss the different techniques one can use to identify pedophiles on social media.

Tip : Social issues research topics are interesting, but ensure you write formally and professionally.

• Investigate the importance or lack of importance of art in primary or secondary education. You can also recommend whether or not it should be included in the curriculum and why.

Tip : You can write on this possible research title based on your experiences, whether positive or negative.

• Discuss the role of illustration in children’s books and how it facilitates easy understanding in children. You may focus on one particular book or select a few examples and compare and contrast.
• Should the use of art in books for adults be considered, and what are the likely benefits?
• Compare and contrast the differences in art from two named cultural Renaissance – for instance, the Northern Renaissance and the Italian Renaissance.
• Investigate how sexism is portrayed in different types of media, including video games, music, and film. You can also talk about whether or not the amount of sexism portrayed has reduced or increased over the years.
• Explore different perspectives and views on dreams; are they meaningful or simply a game of the sleeping mind? You can also discuss the functions and causes of dreams, like sleeping with anxiety, eating before bed, and prophecies.
• Investigate the main reasons why religious cults are powerful and appealing to the masses, referring to individual cases.
• Investigate the impact of religion on the crime rate in a particular region.

Tip : Narrow down this research title by choosing to focus on a particular age group, say children or teenagers, or family. Alternatively, you can focus on a particular crime in the research to make the paper more extensive.

• Explore reasons why Martin Luther decided to split with the Catholic church.
• Discuss the circumstances in Siddhartha’s life that led to him becoming the Buddha.

Tip : It is important to remove sentiments from your research and base your points instead on clear evidence from a sound study. This ensures your title of research does not lead to unsubstantiated value judgments, which reduces the quality of the paper.

• Discuss how the steel sword, gunpowder, biological warfare, longbow, or atomic bomb has changed the nature of warfare.

Tip : For this example of the research problem, choose only one of these technological developments or compare two or more to have a rich research paper.

• Explore the changes computers, tablets, and smartphones have brought to human behaviors and culture, using published information and personal experience.

Tip : Approach each research study example in a research paper context or buy research paper online , giving a formal but objective view of the subject.

• Are railroads and trains primary forces in the industrialization, exploitation, and settlement of your homeland or continent?
• Discuss how the use of fossil fuels has changed or shaped the world.

Tip : Narrow down this title of the research study to focus on a local or particular area or one effect of fossil fuels, like oil spill pollution.

• Discuss what progress countries have made with artificial intelligence. You can focus on one named country or compare the progress of one country with another.
• Investigate the factual status of global warming – that is, is it a reality or a hoax? If it is a reality, explore the primary causes and how humanity can make a difference.
• Conduct in-depth research on endangered wildlife species in your community and discuss why they have become endangered. You can also enumerate what steps the community can take to prevent these species from going extinct and increase their chances of survival.
• Investigate the environmental soundness of the power sources in your country or community. Then, recommend alternative energy sources that might be best suited for the area and why.
• Consider an area close to wildlife reserves and national parks, and see whether oil and mineral exploration has occurred there. Discuss whether this action should be allowed or not, with fact-backed reasons.
• Investigate how the use and abolishment of DDT have affected the population of birds in your country.

Tip : Each example research title requires that you consult authoritative scientific reports to improve the quality of your paper. Furthermore, specificity and preciseness are required in each example of research title and problem, which only an authority source can provide.

• Discuss the importance of a major historical event and why it was so important in the day. These events can include the assassination of John F. Kennedy or some revolutionary document like the Magna Carta.
• Consider voyagers such as the Vikings, Chinese, as well as native populations and investigate whether Columbus discovered America first.
• Choose a named historical group, family, or individual through their biographies, examining them for reader responses.
• Research people of different cultural orientations and their responses to the acts of others who live around them.
• Investigate natural disasters in a named country and how the government has responded to them. For example, explore how the response of the New Orleans government to natural disasters has changed since Hurricane Katrina.

Tip : Focus this research title sample on one particular country or natural disaster or compare the responses of two countries with each other.

• Explore the educational policy, “no child left behind,” investigating its benefits and drawbacks.
• Investigate the concept of plagiarism in the twenty-first century, its consequences, and its prevalence in modern universities. Take a step further to investigate how and why many students don’t understand the gravity of their errors.
• Do in-depth research on bullying in schools, explaining the seriousness of the problem in your area in particular. Also, recommend actions schools, teachers, and parents can take to improve the situation if anything.
• Explore the place of religion in public schools; if it has a place, explain why, and if it does not, explain why not.
• Does a student’s financial background have any effect on his or her academic performance? In this sample research title, you can compare students from different financial backgrounds, from wealthy to average, and their scores on standardized tests.
• Is spanking one’s child considered child abuse; if so, why? In this research problem example for students, consider whether or not parents should be able to spank their children.
• Investigate the relationship between family health and nutrition, focusing on particular nutrition. This example of the title of the research study, for instance, can focus on the relationship between breastfeeding and baby health.
• Elucidate on, if any, the benefits of having a home-cooked meal and sitting down as a family to eat together.
• Explore the effect of fast-food restaurants on family health and nutrition, and whether or not they should be regulated.
• Research local food producers and farms in your community, pinpointing how much of your diet is acquired from them.

Tip : These are great research titles from which you can coin research topics for STEM students .

• Compare and contrast the two major operating systems: Mac and Windows, and discuss which one is better.

Tip : This title of the research study example can lead to strong uninformed opinions on the matter. However, it is important to investigate and discuss facts about the two operating systems, basing your conclusions on these.

• Explain the effect of spell checkers, autocorrect functions, and grammar checkers on the writing skills of computer users. Have these tools improved users’ writing skills or weakened them?

Tip : For this example of title research, it is better to consider more than one of these tools to write a comprehensive paper.

• Discuss the role(s) artificial intelligence is playing now or will likely play in the future as regards human evolution.
• Identify and investigate the next groundbreaking development in computer science (like the metaverse), explaining why you believe it will be important.
• Discuss a particular trendsetting technological tool, like blockchain technology, and how it has benefited different sectors.

Tip : For this research title example, you may want to focus on the effect of one tool on one particular sector. This way, you can investigate this example of research and thesis statement about social media more thoroughly and give as many details as possible.

• Consider your personal experiences as well as close friends’ and families experiences. Then, determine how marketing has invaded your lives and whether these impersonal communications are more positive than negative or vice versa.
• Investigate the regulations (or lack thereof) that apply to marketing items to children in your region. Do you think these regulations are unfounded, right, or inadequate?
• Investigate the merits and demerits of outsourcing customer services; you can compare the views of businesses with those of their customers.
• How has the communication we do through blog sites, messaging, social media, email, and other online platforms improved interpersonal communications if it has?
• Can understanding culture change the way you do business? Discuss how.

Tip : Ensure you share your reasoning on this title of the research study example and provide evidence-backed information to support your points.

• Learn everything you can about eating disorders like bulimia and anorexia, as well as their causes, and symptoms. Then, investigate and discuss the impact of its significance and recommend actions that might improve the situation.
• Research a major development in women’s history, like the admission of women to higher institutions and the legalization of abortion. Discuss the short-term and (or) long-term implications of the named event or development.
• Discuss gender inequality in the workplace – for instance, the fact that women tend to earn less than men for doing the same job. Provide specific real-life examples as you explain the reasons for this and recommend solutions to the problem.
• How have beauty contests helped women: have they empowered them in society or objectified them?

Tip : You may shift the focus of this topic research example to female strippers or women who act in pornographic movies.

• Investigate exceptional businesswomen in the 21st century; you can focus on one or compare two or more.

Tip : When writing on the title of a research example related to women, avoid using persuasion tactics; instead, be tactful and professional in presenting your points.

• Discuss the unique nature and implications of Donald Trump’s presidency on the United States and the world.
• Investigate the conditions and forces related to the advent and rise of Nazi Germany. Shift the focus of this title research example on major wars like WWI or the American Civil War.
• Is the enormous amount of money spent during election campaigns a legitimate expense?
• Investigate a named major political scandal that recently occurred in your region or country. Discuss how it started, how its news spread, and its impacts on individuals in that area.
• Discuss the impacts British rule had on India.
• Investigate the rate of incarceration in your region and compare it with that of other countries or other regions.
• Is incarcerating criminals an effective solution in promoting the rehabilitation of criminals and controlling crime rates?
• Consider various perspectives on the issue of gun control and coin several argumentative essay topics on the matter.
• Why do drivers continue to text while driving despite legal implications and dire consequences?
• Discuss the legality of people taking their own lives due to suffering from a debilitating terminal disease.

Each example of the research title provided in this article will make for a rich, information-dense research paper. However, you have a part to play in researching thoroughly on the example of the research study. To simplify the entire process for you, hiring our writing services is key as you wouldn’t have to worry about choosing topics. Our team of skilled writers knows the right subject that suits your research and how to readily get materials on them.

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193 Education Research Topics & Ideas

Developing healthcare, engineering, and IT is undoubtedly useful. However, the professionals in these areas do not grow on their own. The education system is the birthplace of all the science geniuses who change our world.

Our specialists will write a custom essay specially for you!

If you’re looking for a research title about education, you’re in the right place! This article contains 193 best education research topics that Custom-writing.org experts have prepared for you.

School issues, educational management, special education, child development, and even the new normal education in this pandemic – everything is collected here!

No matter if you’re a high school, an undergraduate, or a graduate college student, this list of research topics in education will be helpful. Find the perfect idea for your paper, discussion, presentation, or even a dissertation below.

• 🔝 Top 10 Topics
• 👓 How to Choose a Topic

🎓 Education Research Topics List

• 🚌 Special Education
• 👶 Child Development

🔍 References

🔝 research topics in education 2024.

• The future of didactics
• Teaching digital literacy
• What is “learning loss”?
• Augmented reality in the classroom
• Real-time performance data in education
• Cognitive science and learning environments
• Ways of monitoring students’ mental health
• Girls’ education and empowerment
• Mental effects of distance learning
• Online teacher-parent communication
• Distant education in the era of COVID-19 pandemic
• The role of technology in distant learning
• Student-student communication in distance education

👓 How to Choose an Education Research Topic?

If you have decided to start working on an educational research, you can definitely benefit from the following list of tips on how to choose a topic. It is the first writing step on your way to the successful paper.

• Review your previous works. Take a look at the essays and research projects you finished earlier. You may have mentioned an issue there that would be worth a more detailed examination.
• Stay informed about the latest updates in education. You might find some government reports saying about their plan of action. It is an excellent source of the most relevant topics that need to be developed in the nearest future.

• “Go out into the field.” If you don’t work in the area of education, it can be beneficial to visit some schools and colleges. Seeing how all the methods are applied in real life gives some food for thought.
• Dig into literature. You might as well get inspired by reading some acknowledged authors’ works.
• Check out international practices. Don’t be afraid to go out of the limits of the national education system. There are thousands of new approaches applied in different areas of education.

Try at least one of the suggested tips if you feel stuck. Be creative while working on your paper! Use our great collection of funny quotes about education . And keep in mind that we’ve also prepared some speech and research proposal ideas on education.

Just in 1 hour! We will write you a plagiarism-free paper in hardly more than 1 hour

We made a list of educational research topics to make your life easier and save your time! There are 113 great ideas about which way you can start moving:

• Early childhood education : learning through play. We already discussed the importance of education in the development of our society. You see, the personality and mindset of a person are developed in the first years of their lives. Early childhood education is the foundation for the rest of the child’s life.
• Evaluation of the ability grouping method effectiveness. Ability grouping is creating groups of pupils with the same abilities, unlike the more popular age grouping strategy. However, there might be some challenges. For instance, the group should be rearranged if one child starts developing faster. You can research its effectiveness.
• How does the blended learning approach affect students’ performance? Blended learning has been getting more and more popular recently. It is a modern learning approach that combines traditional classes with online materials. It requires strong management skills from students but gives more opportunities in the age of technologies.
• Growing classes: do learning outcomes suffer from it? It looks like there are fewer and fewer professionals willing to teach at schools. But the demand is growing, which results in bigger classes. Teachers can’t possibly split and attend to each and every student with the same level of individual approach. So how does it affect students’ performance ?
• The trends in computer literacy . Nowadays, no one is surprised by a toddler using a tablet or a smartphone without any trouble. Technologies are also incorporated into the learning process. You may write on it with an argumentative approach or see what trends there are and compare them.

• How to recognize which learning style a student needs? There are four learning styles based on different ways students perceive information. For some, it is easier to visualize information; for others, it is all about reading. Look into how schools apply this knowledge, how the best teachers find individual approaches, or how can a study styles quiz help in determining the best educational strategy.
• Should all teachers receive merit pay ? Let’s talk about finances now! Being a teacher is an essential but sometimes tough job. Most teachers overwork and don’t even have weekends. However, they would still receive a standard paycheck. Is it fair? Or should they be paid according to their performance ?
• Standardized testing as a fair judging system. Standardized tests were created to evaluate the performance of the students in all the schools around the country. However, how effective are they? Are the quality of education and budgeting the same in all schools? Many aspects should be taken into consideration.
• From homeschooling to successful careers: an overview. There are many reasons why mothers would prefer homeschooling to public education. However, only one thing matters – its effectiveness. If you know anyone who was studying at home, take this chance to analyze how it affected their current life. It is one of the experimental research topics in education.
• How do children benefit from bilingual education? At the times of globalization, this question is undoubtedly relevant. There are more and more advocates for bilingual education. Studies have shown that kids who study in two or more languages have better cognitive abilities and overall academic achievement.
• Single-sex education vs. mixed-sex education. The division started to honor traditions and religion. You might think that it is in the past… But, today, there are still plenty of separate schools for boys and girls. There are many debates on this issue and an excellent chance to research it from the scientific point of view.
• Where is the line for parental involvement ? It is easily one of the best education research topics. Maybe it is too biased for a thesis but could be excellent as a research paper for majors like psychology and communication. Parental involvement is undoubtedly essential, but is there a limit? Parents sometimes overdo it!
• Boarding schools : advantages & disadvantages. Sometimes parents send their kids to the boarding schools to get rid of them. But often they underestimate the stress that students go under there. Spending all their time on the school premises, even at the weekend. It can be psychologically exhausting.
• How should a proper sex education program look like? Let’s leave the Netflix show aside, though… In real life, it is much less dramatic. But just as important! In many schools, there is a lack of sex ed classes. And even if there are some, they don’t seem to be working… However, this topic is vital for youth health and is worth researching.
• Reforming the school schedule: the most efficient solution. This education research topic list would not be complete without this highlighting this issue. There is no way to satisfy all students’ needs regarding the schedule. But that is what compromises for! Maybe your research can become the next universal solution.
• How can career counseling support high school students? Career counseling might be a good investment for schools. Counselors analyze students’ unique abilities and skills based on the scores as well as their passions. It is also a great chance for students to evaluate their real prospects for a specific career path.
• The benefits of the flipped classroom approach. The flipped classroom approach is kinda a type of blended learning. Students are asked to learn the new material at home. When they get to school, they work through it with a teacher and create discussion groups. But does it really work?
• How does Race to the Top program affect students’ outcomes? Race to the Top is an initiative that helps to reform the education system by giving grants to states. It provides multiple opportunities, such as creating data systems and organizing training for teachers. However, it met a wave of criticism.
• The new solutions to prevent violence at schools . Education is good, but children can be mean to each other. Whenever kids get together, there are always fights. It is hard even dealing with and preventing sounds impossible. But you only need to study some cases of educational institutions in countries like Sweden.
• Why should teachers join teacher unions ? Teacher unions are organizations that connect professionals who want to stand for their rights. It may be extremely beneficial if a teacher seeks legal advice. But is it the only advantage of joining the union? You can elaborate on this topic, which is relevant at all times.
• Adapted physical education vs. usual physical education
• Is busing still relevant, and should it be stopped?
• How to avoid plagiarism?
• Charter schools vs. public schools : compare & contrast
• Online courses interaction: types and effects
• The inclusivity in charter schools
• High school students and vocational education
• Should collaborative learning be applied more in high school?
• Comparing education in USA and in Saudi Arabia
• Do Common Core State Standards succeed in preparing students for college ?
• Evidence-based model and solving problems with school funding
• Why is computer-assisted instruction also necessary for non-IT students?
• Personal lecture results
• Data-based decision making in assessment
• The role of teachers and parents in the discipline : compare & contrast
• Education: qualitative research study roles
• Should time management be taught in schools?
• Education: peer evaluation system
• Do dual enrollment programs put more pressure on high school students?
• College student life: participation, perceptions and satisfaction
• DACA and DREAM act : compare & contrast
• Impacts of teaching detective stories to esl students
• Can Kalamazoo Promise initiative be applied in other states?
• Liberal arts: Otis College of Arts and Design
• Using Gardner’s theory of multiple intelligences to create a new learning approach
• Where and how sex education should be conducted among the young people?
• Where is the limit of self-improvement: the case of the No Child Left Behind Act ?
• Homeschooling: argumentation for and against
• School sex education and teenage pregnancy in the United States
• The effect of outcomes-based education on children’s mental health
• Education: financial aid for college students
• The benefits of peer-counseling
• Learning methods: online learning
• School uniform in learning institutions
• Improving oral reading skills to enhance reading comprehension
• The root causes of plagiarism in high school
• Religion in schools: is there a place for it? Pros and cons
• Are plagiarism and dishonesty in childhood connected?
• Should a school choice be a usual practice?
• Education issues: differentiation and technology
• The best school-to-career programs in the country: an overview
• The concept of lifelong learning
• Studying abroad: pros and cons
• Is there still a need for school-to-career programs?
• Addressing bullying in elementary and middle school classrooms
• What is STEM lacking?
• STEAM vs. STEM: compare & contrast
• Peer evaluation system in education
• The ways of integrating technology into the classroom
• College education: arguments for and against
• How to prevent students from being distracted by smartphones ?
• Continuing nursing education: a 3-5 year plan
• Psychology of the high school: why do students become bullies ?
• Adult education: reasons to continue studying
• How to prevent cyberbullying among teenagers?
• Flipped classroom in nursing schools
• Do virtual classrooms lack a personal connection between students and teachers?
• Classroom management and techniques to incorporate in student’s reinforcement plan
• Will virtual classrooms substitute real-life classes in the future?
• Children’s bullying in school
• Is the whole brain teaching method effective for college students?
• Gamification in education practice
• Uniforms : killing individuality or improving discipline?

• Perceptions about relationships around schooling
• Does the zero-tolerance policy violate the law?
• Academic dishonesty and its detrimental effects
• Online education and e-learning: potential and benefits
• The approaches to emotional development in early childhood education
• Understanding student’s professionalism
• Importance of sex education
• Sex education curricula as the factor that reduced the number of pregnancies in Fayette and Shelby counties
• School communication
• Encouraging students in reading and literacy
• The correct ways to minimize plagiarism and cheating
• The role of textbooks in education
• Why do college students drop out of school?
• Social skills vs. general knowledge: what is more important in early childhood education?
• Distance learning and social change
• A school without homework: a case study
• The role of history learning in society
• Public vs. private schools : what affects academic achievement?
• The impact of education on life quality
• Educational experiences and significant career goals
• The most advanced best practices in adult ESL instruction
• College entrance exams in the US and China: the competitiveness
• Information technologies & online learning
• An information overload: what are high school students’ limits?
• The impact of education on life qualityEducation: Internet courses versus traditional courses
• Multicultural education : how does it promote a positive attitude?
• Course evaluation methods
• Critical thinking in education
• Criterion and norm-referenced tests in education

🚌 Special Education Research Topics & Ideas

Special education makes it possible for students with special needs to receive all the individual support they require. There are plenty of interesting special education research topics you can choose from:

• Practical approaches to teaching students with an auditory processing disorder. The percentage of children diagnosed with an auditory processing disorder (APD) is rising. Despite the difficulty in diagnosing, there is believed to be at least 5% of students having this learning disorder. It doesn’t affect the hearing itself but makes it hard for children to process what they hear.
• Music therapy for children on the autism spectrum : what instruments are the most effective? Children on the autism spectrum find it difficult to interact socially. Some studies show that music therapy helps them become more flexible and responsive. In turn, it promotes the development of their social skills. For example, the didgeridoo playing showed significant results.
• Karaoke as a way to help children with learning disorders . Kids with learning disabilities need special care. It is one of the research paper topics on education which can bring a brilliant solution! It has been shown that children with learning disorders did much better in reading tests after doing karaoke-based exercises.

• How does peer support help children with disabilities socialize in the classroom? We have already mentioned a topic related to peer review, which is quite a good one for the thesis. Here, you can study how peers can help their classmates with special needs. It is especially relevant for schools with inclusivity policies.
• Cooperative learning & students with attention deficit hyperactivity disorder . Cooperative learning is vital in early childhood. Most schools choose this approach because of its apparent benefits. However, kids with ADHD might see it as a real challenge. Look into the best ways to engage them in cooperative learning activities without harm.
• Social skills : the best time for children with EBD to learn them. It is one of the research topics in social studies education. Secondary school becomes a tough period for students with emotional and behavioral disorders. It is the time when social skills training is as relevant for them as never before. However, what is the best time to start SST?
• How to develop self-determination in children with disabilities ? Self-determination is one of the most vital components of growing up. Every independent human being needs to have it developed. But what about children with special needs? Since they rely heavily on support, it is the educators’ responsibility to help them build self-determination.
• What are the negative sides of the response to intervention approach ? Response to intervention is not a new method. However, it has appeared to be controversial. It not only focuses on children with special needs but on every student who struggles to achieve a specific level. Some evaluations show its ineffectiveness, though.
• Inclusive classes vs. special education . It is one of the most relevant child development research paper topics. Special education classes were created out of fear that students with learning disabilities cannot reach the same level of academic achievement in usual courses. However, it seems that the performance is the same in both approaches.
• How does grade retention affect children with learning disabilities ? Even frequent testing can be a stress for any student. How do children with learning disorders feel then? What’s more, they are put under more pressure if they need to repeat the year? Therefore, some particular approaches need to be applied to prevent it.
• Why should students with learning disabilities be included in the Adequate Yearly Progress evaluation?
• Is a foreign language learning disability a real thing?
• Learning disabilities : when is a child’s communication considered delayed?
• Are students more engaged in self-directed IEP classes?
• Teaching communication skills for students with autism
• Zero-tolerance policy & students with special needs
• Assessing students with learning problems
• Strategies for addressing individual needs in special education
• How effective is the Reading Recovery program?
• Inquiry in the field of education: critical and historical analysis of inclusion of students with disabilities
• Early intervention & students with hearing disabilities
• Inclusive classes & bullying prevention
• Technology integration for children with learning disabilities
• Education for students with autism in Saudi Arabia
• Blended learning & children on the autism spectrum: pros and cons
• Special education & trauma-informed learning
• Should twice-exceptional students still get a special education approach?
• What are the causes of disproportionality in special education?
• Self-monitoring & students with learning disabilities
• How does virtual reality help students with autism adapt to stressful real-life situations?
• Homeschooling children with learning disorders
• How to prevent special education teachers from burnouts?
• Co-teaching & special education
• Is full inclusion a good idea?
• Student-led planning to promote independence in special education
• Early detection & learning disabilities

👶 Child Development Research Topics & Ideas

Child development is a vast area since it covers both the physical and mental development of a child from birth to adulthood. Below you can find 30 child development research topics suitable for your project or even a dissertation!

• Mother-child connection: how does stress affect a child’s wellbeing? Everyone knows about the mother-child connection, but not many know how deep it is. During pregnancy, a woman can get into a stressful situation. It may cause chemical reactions in the brain of a child, which, in turn, affects its future health.
• What role do genes play in child development ? Some of us are used to blaming genes for one thing or another. However, it appears that the environment in which we grow up is much more critical. You can debate on how a child’s environment cases chemical modifications in genes.
• How does living in a community affect child development ? Of course, parents are the primary caregivers for small children. On the other hand, there are advocates for shared responsibilities. In communities, kids interact mostly with close neighbors. A child is open to more experience this way. Elaborate on this topic.

• Child development : does it slow down after the third birthday? It is true that in the first three years of life, children develop the most basic brain functions very actively. However, it doesn’t mean that after that they can’t learn anything new! So what areas of the brain stop active development after the child’s third birthday, if any?
• How is neglecting and ignoring your child worse than physical punishment? Physical violence against children is addressed as one of the main issues in child development. Undoubtedly, it has incredibly adverse effects on a child’s mental health. However, neglect is often omitted. It may cause severe disruptions in the healthy social life and development of a child.
• Childhood trauma & happy life. Children who faced violence or any other unpleasant experience have a higher risk of developing stress-related disorders. On the other hand, it is not a rule. If a child gets sufficient support as soon as possible, traumas may just become a neutral life experience for them.
• What care should traumatized children be provided? It is not enough to just save a child from a traumatizing environment. They can still feel insecure even in safe and predictable surroundings. This situation would require more than one action. A child needs therapeutic care for sooner recovery.
• Child development: coping with troubles alone or in a team? Usually, parents try to teach their children to become more independent. Being brave and only relying on yourself is promoted as socially acceptable behavior. But scientists found out that it’s not individualism that helps to overcome obstacles but supportive relationships.
• Responsive relationships & child development . It appears that having a healthy relationship with parents in childhood is related to having good mental health. Parents should practice responsive relationships with their children. It promotes healthy brain development and resilience in kids. You can research this connection.
• Why should parents teach core life skills to their children? Children are capable of learning how to adapt to life on their own. But researchers highlight that parents can significantly help in this process by teaching core life skills to children. This scaffolding process helps kids learn, develop, and make healthy life choices.
• Why is reducing stress essential for child development?
• Family factors that shape children’s behavior
• How does the process of building neural connections change with time?
• Why is it essential to respond to the child’s interaction actions?
• Child development: using the early plasticity at full
• How emotional health and social skills affect a child’s future career?
• Toxic stress & child development
• What effect does divorce cause in child development?
• Video games & child development: pros and cons
• What does single parenting mean for the development of a child?
• Can a child develop normally without a father’s love?
• Can food supplements help to develop a child’s cognitive abilities?
• Postpartum depression & child development
• Does verbal abuse have the same effect on a child as physical punishment ?
• Should beauty pageants be banned as a threat to healthy child development?
• How soon should mothers end maternity leave?
• Child development in low-income families
• How does graphic violence in animations and movies affect child development ?
• Child development & mother’s mental illness
• Is daycare right for child development ?
• Child development : how do children adopt parents’ beliefs?

🤔 Education Research FAQs

Research in education is important because it contributes to the development in the field. Proving theories, creating new methodologies, and practical solutions are all the outcomes of the research in the education area. It plays a vital role – bringing innovation and progress. It also enables teachers to perfect the learning processes for the benefit of the students.

Research is important in child development because it helps find ways to improve children’s quality of life. Environment, teachers, and relationships have a profound impact on child development. All the children’s basic needs should be met to secure their healthy development. Therefore, it is crucial to find the best solutions for any issues arising in those three aspects. That is why the research is done in child development.

It may not be easy to design and evaluate research in education, but comprehensive guidelines make the process much smoother. First of all, choose the topic you want to work on. Then think about the research methodologies and pick the one which works best. After that, be ready to spend quite a while on the steps like data analysis and writing research proposals.

Action research in education is anything related to evaluating and analyzing issues and weak spots in the learning process. Unlike other types of research, this one is very practical. It may help teachers transition from the old methodologies to newer and more effective ones. Teachers get practical solutions to solve problems in the education process and meet the special needs of their students.

Both culture and ethics influence child development research in many ways. It is especially important if your research is done internationally. Cultural differences should be taken into consideration while collecting and analyzing data. Ethics, on the other hand, influences the whole process. While researching early childhood development, for example, remember about consent and anonymity of the groups.

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ORIGINAL RESEARCH article

This article is part of the research topic.

Methodology for Emotion-Aware Education Based on Artificial Intelligence

Analysis of Social Metrics on Scientific Production in the field of Emotion-Aware Education through Artificial Intelligence Provisionally Accepted

• 1 University of Valencia, Spain

The final, formatted version of the article will be published soon.

Research in the field of Artificial Intelligence applied to emotions in the educational context has experienced significant growth in recent years. However, despite the field's profound implications for the educational community, the social impact of this scientific production on digital social media remains unclear. To address this question, the present research has been proposed, aiming to analyze the social impact of scientific production on the use of Artificial Intelligence for emotions in the educational context. For this purpose, a sample of 243 scientific publications indexed in Scopus and Web of Science has been selected, from which a second sample of 6,094 social impact records has been extracted from Altmetric, Crossref, and PlumX databases. A dual analysis has been conducted using specially designed software: on one hand, the scientific sample has been analyzed from a bibliometric perspective, and on the other hand, the social impact records have been studied. Comparative analysis based on the two dimensions, scientific and social, has focused on the evolution of scientific production with its corresponding social impact, sources, impact, and content analysis. The results indicate that scientific publications have had a high social impact (with an average of 25.08 social impact records per publication), with a significant increase in research interest starting from 2019, likely driven by the emotional implications of measures taken to curb the COVID-19 pandemic. Furthermore, a lack of alignment has been identified between articles with the highest scientific impact and those with the highest social impact, as well as a lack of alignment in the most commonly used terms from both scientific and social perspectives, a significant variability in the lag in months for scientific research to make an impact on social media, and the fact that the social impact of the research did not emerge from the interest of Twitter users unaffiliated with the research, but rather from the authors, publishers, or scientific institutions. The proposed comparative methodology can be applied to any field of study, making it a useful tool given that current trends in accreditation agencies propose the analysis of the repercussion of scientific research in social media.

Keywords: artificial intelligence, Emotion-aware, Education, Social impact, Social Media

Received: 14 Mar 2024; Accepted: 27 Mar 2024.

Copyright: © 2024 Roda-Segarra, Mengual-Andrés and Payà Rico. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY) . The use, distribution or reproduction in other forums is permitted, provided the original author(s) or licensor are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

* Correspondence: Mx. Jacobo Roda-Segarra, University of Valencia, Valencia, Spain

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• university of new orleans
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• uno presents the 2024 dr. ivan miestchovich economic outlook & real

CAMPUS NEWS: MARCH 27, 2024

Real estate seminar, uno presents the 2024 dr. ivan miestchovich economic outlook & real estate forecast seminar on april 9.

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The 33rd annual Dr. Ivan Miestchovich Economic Outlook & Real Estate Forecast Seminar for New Orleans will be held April 9 at the University of New Orleans.

The University of New Orleans Institute for Economic Development & Real Estate Research will host the 33rd annual Dr. Ivan Miestchovich Economic Outlook & Real Estate Forecast Seminar for metropolitan New Orleans on Tuesday, April 9 from 9 a.m.-1 p.m. in the Sen. Ted Hickey Ballroom, located in the University Center of the University of New Orleans.

Seminar moderator Robert Penick, director of the UNO Institute for Economic Development & Real Estate Research, will provide opening remarks at 9 a.m.

At 9:10 a.m., Ali Bustamante, director of the UNO Division of Business and Economic Research, will moderate a discussion about the New Orleans metro economy with Louis David, president and CEO of the New Orleans Business Alliance, and Jerry Bologna, president and CEO of JEDCO.

At 9:50 a.m., Yvette Green, associate professor and chair of the Kabacoff School of Hotel, Restaurant and Tourism Administration, will lead a conversation about hospitality and tourism with Tom Leonard, president and CEO of HRI Hospitality; Beau Box, president and CEO of Beau Box Real Estate; and Octavio Mantilla, co-owner of BRG Hospitality.

At 10:30 a.m., Ron Henderson, deputy commissioner for consumer advocacy, will deliver remarks on behalf of the Louisiana Department of Insurance.

At 11:20 a.m., moderator Dan Mills, CEO of the Homebuilders Association of Greater New Orleans, will lead a discussion about the residential real estate market with Larry Schedler, president of Larry Schedler & Associates, Inc.; Craig Mirambell, CEO of Mirambell Realty; and Annie Clark, chief programs officer of Finance New Orleans. They will address multi-family properties, single family properties and affordable housing.

At 12:05 p.m., Michael Valleskey, associate research director of CBRE, Inc. will provide a national and regional overview of the commercial real estate market.

The event will conclude at 12:25 p.m. with a discussion about the metropolitan New Orleans real estate market moderated by Patrick Beard, corporate services advisor for NAI/Latter & Blum. Panelists include Jackie Dadakis, CEO of Green Coast Enterprises; Jeffrey Lahasky, president of the Lahasky Investment Group; and Andrew Marcus, real estate development and leasing with PMG Leasing.

All attendees are encouraged to pre-register by Tuesday, April 2. General admission is $50. Attendee check-in and networking begin at 8:30 a.m. Louisiana Real Estate Commission and Louisiana Appraisal Board continuing education hours (4) have been applied for.

UNO faculty, staff and students may attend for free, but must pre-register as well. Please visit realestate.uno.edu for more details and registration information.

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