physical education research paper topics

Physical Education Research Paper Topics

In this guide on physical education research paper topics , we explore a wide range of subjects that delve into the field of physical education. Whether you’re a student studying education or a researcher in the field, this comprehensive list of topics is designed to inspire and guide you in your research endeavors. From examining the impact of physical activity on academic performance to analyzing the effectiveness of different teaching methods in physical education, these research paper topics offer a diverse range of areas to explore.

100 Physical Education Research Paper Topics

Exploring the diverse facets of physical education through research papers offers a unique opportunity to delve deeper into the field and contribute to the growing body of knowledge. To assist you in this endeavor, we have compiled a comprehensive list of physical education research paper topics. These topics span various areas of interest, from the impact of physical education on mental health to the integration of technology in physical education curricula. Each category contains 10 stimulating and thought-provoking physical education research paper topics, providing you with a wide range of options to explore and develop your research.

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Physical Education Curriculum and Instruction

The integration of technology in physical education curricula.
The impact of standardized testing on physical education programs.
Strategies for promoting inclusivity and diversity in physical education classes.
The role of assessment and feedback in enhancing student learning in physical education.
The effectiveness of different teaching methods in physical education.
Examining the relationship between physical education and academic performance.
Addressing gender disparities in physical education participation and achievement.
Incorporating cultural competency in physical education curricula.
The influence of teacher-student relationships on student engagement in physical education.
Exploring the role of outdoor education in physical education programs.

Physical Activity and Health

Investigating the effects of physical activity on mental health and well-being.
The relationship between physical activity and obesity rates among children and adolescents.
Analyzing the impact of physical activity on cardiovascular health.
Exploring the role of physical activity in reducing the risk of chronic diseases.
Investigating the psychological benefits of regular physical activity.
The impact of physical activity interventions on sedentary behavior.
Examining the relationship between physical activity and cognitive function.
Analyzing the influence of physical activity on sleep patterns.
Exploring the role of physical activity in promoting healthy aging.
Investigating the socio-economic factors influencing physical activity participation.

Sports Psychology and Performance

Understanding the psychological factors influencing sports performance.
Examining the role of motivation in sports participation and performance.
Analyzing the impact of imagery and visualization techniques on athletic performance.
Investigating the effects of stress and anxiety on sports performance.
Exploring the psychological benefits of team sports participation.
The influence of leadership styles on team cohesion and performance.
Analyzing the role of self-confidence in sports performance.
Understanding the psychological challenges faced by athletes with disabilities.
Investigating the relationship between personality traits and sports performance.
Exploring the effects of psychological interventions on sports performance enhancement.

Exercise Physiology and Biomechanics

Investigating the physiological adaptations to different types of exercise.
Analyzing the biomechanics of specific movements in sports and exercise.
Exploring the effects of different training modalities on muscle strength and endurance.
The role of nutrition in exercise performance and recovery.
Investigating the effects of high-intensity interval training on cardiovascular fitness.
Analyzing the biomechanical factors influencing running gait and performance.
Exploring the physiological responses to altitude training.
Investigating the effects of aging on exercise capacity and performance.
Analyzing the impact of environmental factors on exercise performance.
Understanding the role of genetics in exercise physiology and performance.

Adapted Physical Education

Examining the benefits and challenges of inclusive physical education programs.
The role of assistive technology in facilitating physical education for individuals with disabilities.
Investigating the effectiveness of adapted physical education interventions.
Exploring strategies for promoting social inclusion in adapted physical education.
Analyzing the impact of inclusive physical education on self-esteem and self-efficacy.
Understanding the experiences and perceptions of individuals with disabilities in physical education.
Investigating the role of community partnerships in supporting adapted physical education.
Examining the professional development needs of physical education teachers in inclusive settings.
Analyzing the influence of policy and legislation on the provision of adapted physical education.
Exploring the role of peer support in enhancing the participation of individuals with disabilities in physical education.

Physical Education Pedagogy and Teacher Training

Investigating the impact of professional development programs on physical education teacher effectiveness.
Exploring the use of technology in enhancing physical education pedagogy.
Analyzing the role of reflection and self-assessment in physical education teacher development.
Investigating the factors influencing physical education teacher job satisfaction.
Understanding the challenges faced by physical education teachers in multicultural classrooms.
Examining the relationship between teacher-student interaction and student engagement in physical education.
Exploring effective strategies for managing behavior in physical education classes.
Analyzing the impact of mentoring and coaching on physical education teacher development.
Investigating the influence of school climate on physical education teacher motivation and performance.
Exploring the integration of social-emotional learning in physical education curricula.

Physical Education Policy and Advocacy

Analyzing the impact of policy on the provision of physical education in schools.
Investigating the role of advocacy organizations in promoting quality physical education programs.
Understanding the factors influencing physical education policy adoption and implementation.
Examining the relationship between physical education policies and student health outcomes.
Analyzing the impact of budgetary constraints on the quality of physical education programs.
Investigating the role of community partnerships in supporting physical education initiatives.
Exploring strategies for promoting physical education policy reform.
Understanding the influence of parental involvement on physical education policy and practice.
Analyzing the effects of policy changes on physical education teacher preparation programs.
Investigating the perceptions and attitudes of stakeholders towards physical education policies.

Assessment and Evaluation in Physical Education

Analyzing the effectiveness of different assessment methods in physical education.
Investigating the use of technology in assessing physical education outcomes.
Exploring the role of self-assessment and peer assessment in physical education.
Understanding the challenges and opportunities of authentic assessment in physical education.
Analyzing the impact of assessment practices on student motivation and engagement in physical education.
Investigating the alignment between physical education curriculum, instruction, and assessment.
Exploring the role of formative assessment in enhancing student learning in physical education.
Understanding the influence of standardized testing on physical education assessment practices.
Investigating the relationship between assessment practices and equity in physical education.
Analyzing the use of data-driven decision-making in improving physical education programs.

Physical Education and Technology

Investigating the use of wearable devices in monitoring physical activity and fitness levels.
Exploring the impact of virtual reality and augmented reality in physical education.
Analyzing the role of mobile applications in promoting physical activity and health.
Understanding the benefits and challenges of online physical education courses.
Investigating the use of gamification in enhancing student engagement in physical education.
Exploring the influence of exergaming on physical activity participation.
Analyzing the effectiveness of technology-mediated feedback in physical education.
Investigating the role of social media in promoting physical activity and healthy lifestyles.
Understanding the integration of technology in physical education teacher preparation programs.
Exploring the ethical considerations of using technology in physical education.

Physical Education and Social Justice

Analyzing the relationship between physical education and social inequality.
Investigating the experiences and perceptions of marginalized groups in physical education.
Exploring strategies for promoting social justice in physical education curricula.
Understanding the role of physical education in fostering cultural competence and inclusion.
Investigating the impact of gender norms on physical education experiences.
Analyzing the influence of socioeconomic status on access to quality physical education.
Exploring the intersectionality of race, gender, and physical education experiences.
Investigating the role of physical education in promoting social-emotional well-being and resilience.
Analyzing the impact of inclusive policies and practices on social justice in physical education.
Understanding the challenges and opportunities of integrating social justice in physical education pedagogy.

The comprehensive list of physical education research paper topics presented here is just the beginning of your research journey. Delve into the categories, choose a topic that resonates with your interests, and embark on a fascinating exploration of the subject matter. Remember to consider the relevance, significance, and feasibility of your chosen topic, and conduct thorough research to develop a well-informed and insightful research paper. Whether you seek to uncover the benefits of physical activity or analyze the effectiveness of different teaching methods, these topics will inspire you to expand your understanding of physical education and contribute to the advancement of knowledge in the field.

Physical Education Research Guide

Welcome to the world of physical education research! This page serves as a valuable resource for students and researchers in the field of education who are eager to explore the realm of physical education through the lens of research papers. Physical education plays a vital role in promoting health, wellness, and overall development among individuals of all ages. It encompasses a wide range of physical education research paper topics, from the impact of physical activity on academic performance to the effectiveness of various teaching approaches in physical education.

The primary objective of this page is to provide you with a comprehensive overview of physical education research paper topics. By delving into these topics, you will gain a deeper understanding of the key issues, theories, and practices within the field. The list of topics is categorized into 10 distinct categories, each offering 10 diverse and thought-provoking research paper ideas. Whether you’re interested in exploring the role of technology in physical education or investigating the social and cultural aspects of sports, you’ll find a wealth of ideas to spark your curiosity and fuel your research journey.

In addition to the extensive list of research paper topics, this page also offers expert advice on how to choose the most appropriate topic for your research project. Selecting a compelling and relevant research topic is essential to ensure the success of your study. Our expert guidance will provide you with valuable insights and practical tips to help you navigate through the multitude of options and select a topic that aligns with your interests, research goals, and academic requirements.

Furthermore, we understand that crafting a research paper can be a challenging task. To support your academic journey, we offer custom writing services that allow you to order a personalized research paper on any physical education topic of your choice. Our team of expert degree-holding writers possesses the knowledge and expertise to deliver high-quality, well-researched papers that meet your specific needs. With our commitment to in-depth research, customized solutions, and adherence to formatting styles such as APA, MLA, Chicago/Turabian, and Harvard, we strive to provide you with a seamless and professional writing experience.

So, whether you’re a student embarking on a research project or a researcher seeking new avenues of exploration, this page is designed to inspire, inform, and empower you in your quest for knowledge in the field of physical education. Let us embark on this exciting journey together as we delve into the fascinating world of physical education research paper topics.

Choosing a Physical Education Topic

When it comes to choosing a research paper topic in the field of physical education, it is crucial to select a subject that aligns with your interests, addresses a relevant issue, and allows for meaningful exploration. To help you make an informed decision, here are ten expert tips on selecting the right physical education research paper topic:

Identify your passion : Consider the aspects of physical education that you find most fascinating and meaningful. Are you interested in exploring the impact of technology on physical education, the role of physical education in promoting mental health, or the relationship between physical activity and academic performance? By selecting a topic that aligns with your passion, you will be more motivated to dive deep into the research and produce an exceptional paper.
Stay updated with current literature : Regularly review the latest research articles, books, and journals in the field of physical education. This will help you identify emerging trends, controversial topics, and gaps in existing knowledge, enabling you to choose a research topic that is current and relevant.
Consider the target population : Physical education encompasses various age groups and populations, including children, adolescents, adults, and individuals with special needs. Reflect on which population interests you the most and tailor your research topic accordingly. For example, you may explore the effectiveness of physical education programs for children with disabilities or the impact of physical activity interventions on older adults’ well-being.
Delve into emerging areas : Explore emerging areas within physical education that are gaining attention, such as inclusive education, adaptive physical education, or the integration of technology in teaching and learning. By choosing a topic in these emerging areas, you can contribute to the advancement of knowledge in the field.
Address local or global issues : Consider researching topics that address local or global issues in physical education. For instance, you may examine the impact of socio-cultural factors on physical education participation rates in a specific community or analyze the effects of globalization on physical education curriculum development.
Consult with experts : Seek guidance from professors, academic advisors, or professionals in the field of physical education. They can provide valuable insights, suggest potential research topics, and help you narrow down your focus based on their expertise and experience.
Conduct a literature review : Before finalizing your research topic, conduct a comprehensive literature review to identify existing studies, theories, and gaps in knowledge. This will help you refine your research question and ensure that your topic contributes to the existing body of literature.
Consider research feasibility : Assess the availability of data sources, research methods, and potential challenges associated with your chosen topic. Ensure that you have access to relevant data, research participants (if applicable), and the necessary resources to carry out your study successfully.
Balance novelty and significance : Strive to find a balance between selecting a novel and unique topic while ensuring its significance within the field of physical education. Aim to choose a topic that adds value to the existing knowledge and has the potential to influence practice or policy in a meaningful way.
Reflect on personal and professional goals : Consider how your chosen research topic aligns with your personal and professional goals. Will it contribute to your academic and career development? Does it align with your long-term aspirations within the field of physical education? Selecting a topic that resonates with your goals will enhance your motivation and dedication throughout the research process.

Remember, the process of choosing a research paper topic in physical education is iterative. Be open to exploring different ideas, seeking feedback from experts, and refining your topic based on the available resources and research feasibility. By selecting a topic that aligns with your passion, addresses a relevant issue, and has the potential for significant impact, you will be well-equipped to embark on a successful research journey in the field of physical education.

How to Write a Physical Education Research Paper

Writing a research paper in the field of physical education requires careful planning, thorough research, and effective organization of ideas. Here are some essential steps to guide you through the process of writing a compelling and well-structured physical education research paper:

Understand the assignment : Familiarize yourself with the requirements and guidelines provided by your instructor or educational institution. Pay attention to the research question, formatting style, word count, and any specific instructions or expectations.
Conduct thorough research : Begin by conducting extensive research on your chosen topic. Utilize various sources such as academic journals, books, reputable websites, and databases to gather relevant and reliable information. Take detailed notes and ensure that you cite your sources accurately.
Develop a strong thesis statement : Formulate a clear and concise thesis statement that captures the main objective or argument of your research paper. The thesis statement should guide your research and provide a roadmap for the rest of your paper.
Outline your paper : Create a well-organized outline to structure your research paper. Divide it into sections such as introduction, literature review, methodology, findings, analysis, and conclusion. Outline the main points and supporting evidence you will include in each section.
Write a compelling introduction : Begin your paper with an engaging introduction that grabs the reader’s attention and provides background information on the topic. Clearly state the purpose of your research, introduce the key concepts, and present your thesis statement.
Conduct a comprehensive literature review : Dedicate a section of your paper to reviewing relevant literature on the topic. Summarize and analyze existing studies, theories, and perspectives related to your research question. Identify gaps in the literature that your research aims to address.
Describe your research methodology : Explain the research design, methods, and procedures you used to collect and analyze data. Provide a clear description of the participants, materials, and instruments used. Justify the appropriateness of your chosen methods for addressing your research question.
Present your findings : Share the results of your research in a clear and organized manner. Use tables, graphs, or charts to present quantitative data and provide detailed descriptions for qualitative data. Analyze and interpret the findings in relation to your research question.
Discuss the implications and significance : Analyze the implications of your findings and their significance in the field of physical education. Discuss how your research contributes to the existing knowledge, addresses the research question, and impacts practice or policy.
Conclude your paper effectively : Summarize the main points of your research paper in the conclusion section. Restate your thesis statement and highlight the key findings and implications. Discuss the limitations of your study and suggest areas for further research.
Revise and edit : Review your research paper thoroughly for clarity, coherence, and logical flow. Check for grammatical and spelling errors, and ensure proper citation of sources using the required formatting style.
Seek feedback : Before submitting your final paper, seek feedback from peers, professors, or mentors. Incorporate their suggestions and revisions to improve the overall quality of your research paper.

By following these steps and dedicating sufficient time to each stage of the writing process, you can produce a well-researched and well-structured physical education research paper that effectively contributes to the field.

Order a Custom Research Paper

When it comes to writing a research paper in the field of physical education, it is understandable that you may encounter challenges or time constraints. In such cases, you may consider utilizing professional writing services to order a custom education research paper tailored to your specific needs. Our company offers a range of writing services to assist students like you in achieving their academic goals. Here are the key benefits of ordering a custom education research paper from our services:

Expert degree-holding writers : Our team of writers consists of highly qualified professionals with advanced degrees in the field of education. They have extensive knowledge and experience in conducting research and writing academic papers, ensuring the highest quality of work.
Custom written works : We understand the importance of originality in academic writing. Each research paper we deliver is custom-written from scratch, tailored to your specific requirements and guidelines. Our writers conduct thorough research and utilize credible sources to ensure the uniqueness and authenticity of your paper.
In-depth research : Our writers have access to a wide range of academic resources and databases, enabling them to conduct in-depth research on your chosen topic. They will gather relevant and up-to-date information to support the arguments and claims in your research paper.
Custom formatting : Our writers are well-versed in various formatting styles commonly used in academic writing, including APA, MLA, Chicago/Turabian, and Harvard. They will ensure that your research paper adheres to the required formatting guidelines.
Top quality and customized solutions : We prioritize quality and strive to deliver research papers that meet the highest standards. Our writers pay attention to every detail of your requirements and instructions, ensuring a customized solution that reflects your unique perspective and academic level.
Flexible pricing : We understand that as a student, you may have budget constraints. That’s why we offer flexible pricing options to accommodate your financial needs. Our pricing structure is transparent and competitive, ensuring that you receive excellent value for your investment.
Short deadlines : If you are facing a tight deadline, our writing services can assist you. We offer short turnaround times, allowing you to place an order with a deadline as short as 3 hours. Our efficient and dedicated team will ensure that your research paper is delivered to you promptly, without compromising on quality.
Timely delivery : We understand the importance of meeting deadlines. Our writing services prioritize timely delivery, ensuring that you receive your completed research paper within the agreed-upon timeframe.
Absolute privacy : We prioritize the privacy and confidentiality of our clients. Your personal information and the details of your order will be handled with the utmost confidentiality and will not be shared with any third parties.
Easy order tracking : Our user-friendly platform allows you to easily track the progress of your order. You can communicate directly with your assigned writer, providing clarifications or additional instructions as needed.
24/7 support : Our customer support team is available 24/7 to address any questions or concerns you may have throughout the process. We are here to provide prompt and reliable assistance whenever you need it.
Money-back guarantee : We are committed to your satisfaction. If, for any reason, you are not satisfied with the quality of the delivered research paper, we offer a money-back guarantee, ensuring that you have a risk-free experience.

Ordering a custom education research paper from our writing services can provide you with the support and expertise you need to excel in your academic endeavors. Our professional writers will work closely with you to ensure that your research paper meets your expectations and fulfills the requirements of your assignment. Take advantage of our services and experience the benefits of a well-crafted and meticulously researched education research paper.

Take Your Physical Education Research Paper to the Next Level

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To take advantage of our writing services, simply visit our website and place an order. Our user-friendly platform makes it easy to submit your paper details and provide any specific instructions or guidelines. You will have the opportunity to select a writer who specializes in physical education or related fields, ensuring that your research paper is in capable hands.

By choosing iResearchNet, you can benefit from our expert degree-holding writers, customized solutions, and in-depth research. We guarantee top-quality work that is formatted according to your preferred style, whether it’s APA, MLA, Chicago/Turabian, or Harvard.

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Physical Education Dissertation Topics

Published by Grace Graffin at January 5th, 2023 , Revised On April 25, 2024

Due to the growing importance of physical education, a majority of educational institutions have introduced it as a subject that students can choose as their major for their graduation. However, what comes with it is submitting a dissertation to complete your degree.

As a student of physical education, you might be in limbo as to which topic you should choose for your dissertation that is unique and relevant. After all, your future is dependent on it. Choosing the right dissertation topic is the first step toward writing a powerful dissertation that is accepted by your professors.

When choosing a physical education dissertation topic, you need to keep in mind that the topic is current, unique and adds value to what you have learned. To help you with the process of choosing the right topic, this blog contains a list of physical education dissertation topics.

You may also want to start your dissertation by requesting a brief research proposal from our writers on any of these topics, which includes an introduction to the problem, research question, aim and objectives, literature review, and the proposed methodology of research to be conducted. Let us know if you need any help in getting started.

Check our example dissertation to get an idea of how to structure your dissertation .

You can review step by step guide on how to write your dissertation here .

Also read: Education dissertation topics , healthcare dissertation topics , and nursing dissertation topics .

2024 Physical Education Dissertation Topics

Topic 1: investigating the impacts of improving physical education in schools on the development of children’s confidence, endurance and quick integration capability..

Research Aim: The present study aims to investigate the impacts of improving physical education in schools for developing children’s confidence, endurance, and quick integration capability.

Objectives:

To analyse the importance of physical education in schools for proper growth of children.
To examine how advanced physical education in schools helps children to develop their confidence, endurance, and quick integration capacity.
To recommend what can be involved in physical education for improvement that may help develop confidence, endurance, and quick integration capacity of children.

Topic 2: Analysing different types of fine motor activities to help myriad health issues – a study on autistic children in the UK.

Research Aim: The present study aims to explain different types of fine motor activities that help address various health issues, as this study will specifically focus on autistic children in the UK.

To share comprehensive knowledge about different types of fine motor activities.
To explain the benefits of practising fine motor activities in addressing different health issues referring to the problem of autism in children in the UK.
To provide a set of recommendations for the advancement of fine motor activities to address the health problem of autistic children in the UK.

Topic 3: Examining the significance of integrating physical education in the Montessori curriculum in the UK.

Research Aim: The present study aims to explicate the significance of integrating physical education into the Montessori curriculum in the UK.

To explain the benefits of physical education in school for the growth of students.
To comprehend the importance of integrating physical education in the Montessori curriculum in the UK.
To share ideas about how physical education can be integrated and practised in the Montessori curriculum in the UK.

Topic 4: A study on the use of health rate monitors and health tracking to support the practices of advanced physical education.

Research Aim: The present study aims to explicate the usefulness of heath rate monitors and health tracking that support the practices of advanced physical education.

To describe the usefulness of health rate monitors and health tracking equipment.
To interpret the role of health monitors and health tracking to support improved practices in physical education.
To recommend strategies for how health rate monitors and health tracking can be used to get the best possible results in physical education.

Topic 5: Exploring the increasing trend of computer-based fitness programs in the UK – a study on people’s changing behaviour during lockdown.

Research Aim: The present study aims to explore the increasing trend of computer-based fitness programs in the UK and will focus on people’s changing behaviour during the lockdown.

To explain the effectiveness of computer-based fitness programs and their health benefits.
To examine how computer-based fitness programs are becoming an increasing trend and popular during the lockdown.
To suggest strategies for advanced computer-based fitness programs that can help address the changing behaviour of people during the lockdown.

Topic 1: Modern Physical Education versus the Traditional Physical Education – A Comparison

Research Aim: The main aim of this research will be to compare the traditional physical education programs and the ones in place today. The research will start by talking about the traditional physical education programs and then introduce the ones that are being practised today. It will then move towards comparing programs one by one. The research will use a secondary data collection method to analyse already published data and conclude which physical education is better.

Topic 2: Assessing the Impact of Physical Education on Mental Health

Research Aim: This research will aim to explore the impact of physical education on mental health. There is a lot of evidence that physical education has a positive impact on the mental health of individuals, and this research will aim to assess the impact of the same. Existing research will be analysed in order to do an in-depth study into the impact of physical education on mental health.

Topic 3: Analysing Student Behavior and Engagement in Physical Education Classes

Research Aim: Physical Education classes have been a part of the academic system for years now; however, the understanding and concept of this education are changing. More and more institutions are now emphasising these classes and promoting physical education among students. This research will explore student behaviour and engagement in physical education classes and will suggest effective ways to enhance and increase engagement.

Topic 4: Planning Physical Education Programs to Produce Effective Results

Research Aim: The main aim of this research will be to understand how physical education programs should be planned in order to produce results that are effective for students. The study will assess currently planned programs in order to evaluate how these should be changed for the better and how they can help produce effective results.

Topic 5: Role of Teachers in Enhancing Students’ Engagement in Physical Education Lessons

Research Aim : Teachers always play an important role in academics. This research will explore how important teachers are in physical education in enhancing students’ engagement towards exercise. Given the benefits of physical education, it is essential for teachers to make sure that the right strategies are devised to drive students’ engagement, and the same will be assessed and analysed in this research. The study will also provide effective strategies that teachers should implement in order to produce effective results from student engagement.

Topic 6: Should Physical Education Lessons Differ for Males and Females?

Research Aim: A lot is argued about the physical education curriculum and that lessons should differ for males and females. This research will deep dive into the different lessons that are offered, and based on the analysis, the research will conclude if lessons should differ for males and females. The study will be based on secondary data.

Topic 7: Do Physical Education Classes Promote the Importance of a Healthy Lifestyle?

Research Aim: It is believed that physical education classes promote a healthy lifestyle; however, there is no authentic evidence. This research will aim to prove whether physical education promotes a healthy lifestyle or not. In either case, the research will analyse the impact of physical education on individuals’ lifestyles and how it helps them improve their way of living.

Topic 8: Physical Education and Technology – How Well do the Two Integrate?

Research Aim: Just like other forms of education, physical education and technology integrate well together. With the help of technology, physical education is offered using various aids, for example, visual aids, online classes, examples videos available online and much more. This research will assess how well physical education is offered with the help of technology and how it helps individuals gain access to effective lessons.

Topic 9: Assessing the Effectiveness of Virtual Physical Education Classes

Research Aim: Online physical education classes have emerged popular in the past year. With the pandemic’s major reason, virtual classes have opened a new avenue for physical education classes. This research will aim to assess how effective virtual physical education classes have been and how they have helped in enhancing students’ engagement and interest in these classes.

Topic 10: Accountability in Physical Education Lessons – How do Students Respond?

Research Aim: Just like all other classes hold students responsible and accountable for their learning, physical education should also follow the same pattern. While a lot of people argue against this, this research will weigh both sides. It will discuss and assess the pros and cons of holding students accountable for their physical education and will also talk about how students respond to accountability in these classes.

How Can ResearchProspect Help?

ResearchProspect writers can send several custom topic ideas to your email address. Once you have chosen a topic that suits your needs and interests, you can order for our dissertation outline service which will include a brief introduction to the topic, research questions , literature review , methodology , expected results and conclusion . The dissertation outline will enable you to review the quality of our work before placing the order for our full dissertation writing service !

Topic 11: Devising Strategies for Different Levels of Physical Education

Research Aim: This research will discuss the various strategies that are needed for devising physical education lessons for different classes. The study will talk about how different grades require a different level of physical education and will then present useful strategies that teachers can devise according to the grade and students’ age.

Topic 12: Should Universities Include Physical Education Lessons in their Curriculum?

Research Aim: Usually, physical education is not a part of universities’ curriculum. It is found in schools’ curricula or colleges, at best. This research will argue whether physical education should be introduced in all universities or not. It will present arguments for both sides, and based on the debate, the study will conclude as to whether introducing physical education in all universities’ curriculum is feasible or not.

Topic 13: Assessing Different Physical Education Teaching Styles and their Impact on Students

Research Aim: Just like the regular subject teachers, physical education teachers also have their own style, and each teacher is different from the other. This research will talk about the set of characteristics and traits that a physical education teacher should possess in order to produce results. The study will also assess the impact of different teaching styles on students to give an in-depth idea as to which style is effective and should be adopted.

Topic 14: Exploring the Challenges in Physical Education Lessons

Research Aim: Physical education comes with its own set of challenges. Not all students are interested in taking these classes; some of them are irregular, some do not respond well, and others do not take instructions seriously. On the flip side, there are challenges related to the instructors as well. This research will discuss challenges on both sides of the coin and will suggest how these challenges can be handled effectively.

Topic 15: Understanding the association between Counseling and Physical Education Lessons

Research Aim: Physical education is often linked to mental health. A lot of people argue that physical education is essential for people seeking help for their mental health. Thus, this research will go a step ahead and will aim to understand the relationship between counselling and physical education. It will aim to conduct interviews with people who are attending counselling sessions as well as physical education lessons to improve their mental health.

Topic 16: Diet, Physical Education, and Health – How are the three interlinked?

Research Aim: A common misconception is that physical education is all about exercise and sports. This research will aim to bust this myth and show how diet and overall health (mental and physical) are linked to physical education. The study will discuss how the three go hand-in-hand and how one leads to another.

Topic 17: Does Physical Education Enhance Students’ Academic Career?

Research Aim: While physical education does improve an individual’s well-being, does it enhance a student’s academic career as well? This research will aim to understand the same. This thesis will explore how physical education can or cannot help a student achieve his/her academic goals.

Topic 18: Impact of Physical Education on Personality Development – An Analysis

Research Aim: Physical education builds character and develops an individual’s personality, as well. This research will analyse the same and understand how physical education helps in personality development and why educational institutions emphasise and include physical education in their curriculum. The study will assess students who are a part of physical education lessons versus students who are only involved in academics and will then compare the results.

Topic 19: Studying the Impact of Introducing Physical Education in Students’ Early Years

Research Aim: Physical education should be introduced early in a student’s academic life. This is argued by a lot of physical education proponents. This research will study this claim and find out how effective it is for students to be introduced to physical education early in their academic life.

Topic 20: Comparing the Benefits and Challenges of Physical Education

Research Aim: Not many people favour physical education as a subject in schools and colleges. This research will aim to compare the benefits and challenges of physical education lessons by discussing the pros and cons. It will then conclude whether physical education is beneficial for students or not.

Topic 21: The Role of Gender in Employing Physical Education

Research Aim: This research investigates the influence of gender on employment patterns, opportunities, and challenges within the field of physical education. The study focuses on understanding disparities and potential strategies for achieving greater gender equity in employment.

Topic 22: The Impact of Physical Education in Reducing Obesity in Students

Research Aim: This study examines the effectiveness of physical education programs in reducing obesity among students. The research also explores the various components of these programs, such as curriculum design, duration, intensity, and extracurricular support. It aims to identify the key factors that contribute to successful obesity reduction outcomes and to provide evidence-based recommendations for optimising physical education interventions to combat obesity effectively in school-aged children.

Topic 23: Exploring the Impact of Visual Aids in PE Teaching

Research Aim: This study investigates the impact of incorporating visual aids in physical education (PE) teaching practices. It seeks to explore how visual aids, like videos influence student engagement and the overall effectiveness of PE instruction. Additionally, the research aims to identify best practices for integrating visual aids into PE curriculum and pedagogy. It offers insights to enhance teaching methods and improve the learning experience for students in physical education settings.

Topic 24: Investigating the Impact of Virtual Physical Education Classes

Research Aim: This research investigates the impact of virtual physical education (PE) classes on student engagement and physical activity levels. It seeks to explore how virtual PE instruction affects achieving learning outcomes comparable to traditional in-person classes. The study further examines virtual PE’s potential benefits and challenges, including accessibility, technology integration, and instructor-student interactions.

Topic 25: An Analysis of the Physical and Mental Health of Students After PE

Research Aim: This study aims to conduct an analysis of the physical and mental health outcomes of students following participation in physical education (PE) classes. It explores the immediate and long-term effects of PE on physical fitness, cardiovascular health, mental well-being, and academic performance. Additionally, it explores factors influencing these outcomes, such as the intensity and duration of PE sessions and instructor effectiveness.

Topic 26: Exploring the Need for Physical Education at the College Level to Improve the Mental Health of Students

Research Aim: This research explores the importance of physical education (PE) programs at the college level in enhancing the mental health of students. It investigates the benefits of incorporating physical activity into college curricula, including its impact on stress reduction, mood regulation, and overall psychological well-being. The research also identifies barriers and facilitators to implementing PE initiatives in higher education settings and assesses student attitudes and perceptions towards such programs.

Topic 27: Investigating How Physical Activity Can Improve the Immune System in Adults

Research Aim: This study investigates the relationship between physical activity and immune system function in adults. It explores the impact of regular exercise on various aspects of immune function, including immune cell activity and susceptibility to infectious diseases. Additionally, the research examines mechanisms underlying the immunomodulatory effects of physical activity, such as changes in inflammation levels and metabolic health.

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71 Physical Education Essay Topic Ideas & Examples

🏆 best physical education topic ideas & essay examples, 🔎 interesting topics to write about physical education, 📑 good research topics about physical education.

Keeping Physical Education in Schools Apart from participating in the physical education programs, the students need to be taught on the importance of the various exercises so that they inculcate the culture of physical fitness into their life-time fitness programs.
Physical Education and Its Benefits Schools in particular know the benefits of physical education in a student’s life and should be able to fight for the children’s rights. We will write a custom essay specifically for you by our professional experts 808 writers online Learn More
Role of Parents in Physical Education and Sport The involvement of parents in physical education and sports is viewed differently in regard to how it affects the child’s participation in sports even later in life.
Adaptive Physical Education The value of the brochure developed for the informational purpose is attributed to the need to communicate the importance of APE and point out the value that it could bring to children with special needs.
Bodies in Physical Education The purpose of this study is to investigate how students view the construction of their bodies in relation to physical education and how students’ meanings of their bodies affect their participation or resistance to physical […]
Physical Education: Personal Physical Exercise Plan Given the necessity of taking fluids, it is good to identify and avail the same before starting a physical exercise session.
The Usefulness of Physical Education in Modern Education Varied criticism adds to the debate on the usefulness of PE in modern education and the need to change current approaches. This indicates the need to focus the debate on the meaning of PE to […]
Health Teaching and Physical Education Lesson Plan Students will be able to dribble a ball with a hand paying attention to such principles as dribbling on the side, waist-high, pushing the ball down, and eyes lookup.
Physical Education Curriculum Physical education has significantly contributed towards the realization of the school philosophy as it helps in the development of the physical aspects of the students.
Reducing Physical Education Classes The teaching process has a significant amount of waste regarding the excess number of teachers dedicated to sports training compared to math and technical subjects.
Physical Education Is an Academic Subject These aspects make physical activity one of the core subjects at school, including for younger students who need a surge of emotions and energy.
Race and Gender in Physical Education and Sports These factors create the diversity of cultures and nations, and inclusiveness, giving access to the best talents and disclosing the individual’s potential, abilities, and strengths.
Physical Education: Effect of Phototherapy Therefore, it is evident that the intensity of an exercise directly influences one’s heart rate, breathing rate, skin coloration, sweating, and recovery.
Effectiveness of Physical Education Provisions in the UK School The vital need for health promotion, especially in terms of secondary education has been highlighted by the science of epidemiology the study of factors that influence the health and illnesses of people.
British Development of Sport and Physical Education in the Last 25 Years Sport England wishes to increase participation in sports through community sports activities, sporting completions providing and training coaches and officiators, and closely working with the Youth Sport Trust and UK Sports formed in 1996 to […]
Increase of Physical Education Classes Children are the future of any nation, and their health and well-being are the essential preconditions for the successful development of the United States.
Physical Educators Attitude to Special Needs Children Sue Combs, together with her colleagues from the University of North Carolina, investigated the attitudes of the physical education teachers towards the inclusion of children with special needs in their lessons.
The Nature and Values of Physical Education In the past, physical education was considered to consist of only physical and practical activities, however, the recent research has justified that physical education can be included in the curriculum on the basis of scientific […]
Should Public Schools Be Required to Restore Physical Education Classes to the Curriculum? The occurrence of obesity prevalence in children, in the U S, can be associated with the removal of physical education courses in public school curriculum.
Physical Education within Elementary Schools One of the benefits of the physical education is the level of physical fitness that it induces to the students. The manner in which these students are introduced to physical education and the way that […]
Effects of Physical Education on Brain These neurons are usually created in a place called the hippocampus, which happens to be the section of the brain involved in learning and storage of memory.
Elementary School Curriculum and Physical Education
Should Physical Education Be a Required Class in College?
Physical Education Class: The Perfect Place to Be Bullied
Pros and Cons of Physical Education
How Physical Education Should Be Taught
Physical Education for Elementary School Students
Weight-Related Barriers for Overweight Students in an Elementary Physical Education Classroom
Physical Education Lesson Plan and Activity Ideas
Motivation, Discipline, and Academic Performance in Physical Education
Adaptive Physical Education for Students With Special Needs
Physical Education Should Not Be Mandated
How Technology Enhances the Physical Education Curriculum
Physical Education: Standards, Cooperative Skills, and Learning Theories
Physical Education’s Contribution to Public Health
Physical Education Importance for Child Development
Reasons to Keep Physical Education in the National Curriculum
Ethical Relativism and Its Impact on Physical Education
Inclusive School Physical Education and Physical Activity
History and Benefits of Physical Education: Why I Want to Be a P.E. Teacher
Physical Education Beyond the Middle School
The Importance of Physical Education in Childhood Obesity
Physical Activity Promotion and School Physical Education
Implementing the TARGET Model in Physical Education: Effects on Perceived Psychobiosocial and Motivational States in Girls
Teaching the Nuts and Bolts of Physical Education
Health-Related Intensity Profiles for Physical Education Classes
Anticipated Benefits From a Basic College Physical Education Activity Course
Physical Education Should Be Graded on Effort, Not Ability
Motivation and Intention to Be Physically Active in Physical Education Students
Personal Development, Health, and Physical Education
Why Physical Education Should Be Included in the School Curriculum
Attitude and Teacher’s Qualification as Factors Affecting Students’ Participation in Physical Education Activities
Burnout in Physical Education Teachers
What Benefits Physical Activity Has on Academic Performance
SPARK Physical Education Curriculum Program
Changing the National Curriculum for Physical Education
Physical Education: Official School Policy
How Physical Education Helps to Develop Your Personality
Early Childhood Development: Physical Education Program Effects
Fun Physical Education Games for High School Students
How Extracurricular Sports Should Satisfy State Physical Education Requirements
One’s Readiness to Self-Development Through Physical Education
Would More Physical Education Reduce Obesity in the Youths?
Goal-Directed Physical Education for Learners With Disabilities
Health and Physical Education: Volleyball
Managing the Physical Education Classroom
Strategies to Accommodate Autism Spectrum Disorder Students in General Physical Education
Physical Education vs. School Sports: What’s the Difference?
The Impact of School Budgetary Cuts on Physical Education
Teaching Health and Physical Education in Australian Schools
Positive Reinforcement Techniques in Physical Education
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Journal of Teaching in Physical Education

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Print ISSN: 0273-5024 Online ISSN: 1543-2769

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Volume 43 (2024): Issue 2 (Apr 2024)

JTPE is published quarterly in January, April, July, and October.

The purpose of the Journal of Teaching in Physical Education is to communicate national and international research and stimulate discussion, study, and critique of teaching, teacher education, and curriculum as these fields relate to physical activity in schools, communities, higher education, and sport. The journal publishes original reports of empirical studies in physical education together with integrative reviews and analyses of educational and methodological issues in the field. Research using a variety of methodological approaches is acceptable for publication. Well-designed replication of previous research is also strongly encouraged. Brief research notes also will be reviewed for possible publication. The coeditors and editorial board encourage the submission of manuscripts that extend knowledge within the focus of the journal.

Specific questions about the appropriateness of any individual paper to enter the JTPE peer-review process should be directed to one of the coeditors. Except for occasional invited manuscripts, all published articles are refereed by members of the editorial board, or by other referees invited by the coeditors. The final decision on whether a paper merits publication is made by the coeditor coordinating the review process.

Ethics Policy

Please visit the Ethics Policy page for information about the policies followed by JTPE.

Additional Content

Honoring Daryl Siedentop's contributions to JTPE: https://journals.humankinetics.com/page/Tribute-Daryl-Siedentop

Interested in being a reviewer for JTPE? Please fill out the JTPE Online Reviewer Form .

Heather Erwin University of Kentucky, USA

Incoming Editor

Kevin Andrew Richards University of Illinois Urbana-Champaign, USA

Editors Emeriti

Michael W. Metzler (Founding Editor: 1981–1987) Mark Freedman (Founding Editor: 1981–1984) Thomas J. Templin (1984–1988) David Griffey (1986–1989) Thomas J. Martinek (1988–1991) Judith Rink (1989–1992) Stephen Silverman (1991–1994) Mary O’Sullivan (1993–1996) Nell Faucette (1994–1998) Patt Dodds (1996–2000) Hans van der Mars (1998–2002) Deborah Tannehill (2000–2004) Bonnie Tjeerdsma Blankenship (2002–2006) Melinda Solmon (2004–2008) Ron McBride (2006–2010) Ping Xiang (2008–2012) Pamela Hodges Kulinna (2010–2014) Ben Dyson (2012–2016) Weidong Li (2014–2018) Mark Byra (2016–2020) Bryan McCullick (2018–2022)

Associate Editors

Erin E. Centeio University of Hawaiʻi at Mānoa, USA

Sara Flory University of South Florida, USA

Karen Gaudreault University of New Mexico, USA

Michael Hemphill University of North Carolina-Greensboro, USA

Risto Marttinen George Mason University, USA

Collin Webster University of Birmingham, Dubai, UAE

Tao Zhang University of North Texas, USA

Editorial Board

Laura Alfrey, Monash University, Australia

Dominique Banville, George Mason University, USA

Eve Bernstein, Queens College - CUNY , USA

Antonio Calderón, University of Limerick, Ireland

Weiyun Chen, University of Michigan, USA

Donetta Cothran, Indiana University, USA

Matthew Curtner-Smith, University of Alabama, USA

Ben Dyson, University of North Carolina, Greensboro, USA

Eimear Enright, University of Queensland, Australia

Tim Fletcher, Brock University, Canada

Alex Garn, Louisiana State University, USA

Tan Leng Goh, Central Connecticut State University, USA

Peter A. Hastie, Auburn University, USA

Pamela Hodges Kulinna, Arizona State University, USA

Cassandra Iannucci, Deakin University, Australia

Peter Iserbyt, KU Leuven, Belgium

Weidong Li, Ohio State University, USA

Ken Lodewyk, Brock University, Canada

Bryan McCullick, University of Georgia, USA

Scott McNamara, University of New Hampshire, USA

Geoff Meek, Bowling Green State University, USA

Thomas Quarmby, Leeds Beckett University, UK

Fernando Santos, Polytechnic Institute of Porto, School of Higher Education, Portugal

Bo Shen, Wayne State University, USA

Victoria (Tori) Shiver, University of New Mexico, USA

Mara Simon, Springfield College, USA

Kelly Simonton, University of Wyoming, USA

Oleg Sinelnikov, University of Alabama, USA

Suzan F. Smith-Ayers, Western Michigan University, USA

Melinda Solmon, Louisiana State University, USA

Michalis Stylianou, University of Queensland, Australia

Sue Sutherland, The Ohio State University, USA

Tristan Wallhead, University of Wyoming, USA

Jennifer Walton-Fisette, Kent State University, USA

Yubing Wang, Old Dominion University, USA

Phillip Ward, The Ohio State University, USA

John Williams, University of Canberra, Australia

Wesley Wilson, University of Illinois Urbana-Champaign, USA

Ping Xiang, Texas A&M University, USA

Xihe Zhu, Old Dominion University, USA

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Paul Malinowski, University of Illinois at Urbana-Champaign, USA

Human Kinetics Staff Tammy Miller, Senior Journals Managing Editor

Prior to submission, please carefully read and follow the submission guidelines detailed below. Authors must submit their manuscripts through the journal’s ScholarOne online submission system. To submit, click the button below:

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Authorship guidelines, open access, manuscript submission template, guidelines for replication studies, guidelines for research notes, guidelines for book reviews, submitting a manuscript, receiving a decision, guidelines for monographs, guidelines for special issues, additional resources.

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The Journals Division at Human Kinetics adheres to the criteria for authorship as outlined by the International Committee of Medical Journal Editors*:

Each author should have participated sufficiently in the work to take public responsibility for the content. Authorship credit should be based only on substantial contributions to:

a. Substantial contributions to the conception or design of the work; or the acquisition, analysis, or interpretation of data for the work; AND b. Drafting the work or revising it critically for important intellectual content; AND c. Final approval of the version to be published; AND d. Agreement to be accountable for all aspects of the work in ensuring that questions related to the accuracy or integrity of any part of the work are appropriately investigated and resolved.

Conditions a, b, c, and d must all be met. Individuals who do not meet the above criteria may be listed in the acknowledgments section of the manuscript. * http://www.icmje.org/recommendations/browse/roles-and-responsibilities/defining-the-role-of-authors-and-contributors.html

Authors who use artificial intelligence (AI)-assisted technologies (such as Large Language Models [LLMs], chatbots, or image creators) in their work must indicate how they were used in the cover letter and the work itself. These technologies cannot be listed as authors as they are unable to meet all the conditions above, particularly agreeing to be accountable for all aspects of the work.

Human Kinetics is pleased to allow our authors the option of having their articles published Open Access. In order for an article to be published Open Access, authors must complete and return the Request for Open Access form and provide payment for this option. To learn more and request Open Access, click here .

Manuscript Guidelines

All Human Kinetics journals require that authors follow our manuscript guidelines in regards to use of copyrighted material, human and animal rights, and conflicts of interest as specified in the following link: https://journals.humankinetics.com/page/author/authors

In preparing articles for submission to the Journal of Teaching in Physical Education , authors must follow the Publication Manual of the American Psychological Association (7th ed., 2020).

All articles must include an abstract of 100–150 words typed on a separate page along with three to six key words not used in the title. When submitting, you will be prompted to fill in the abstract in a specific box. Please also include the abstract in the manuscript file that is uploaded. JTPE editorial personnel request that a structured abstract format is used that includes labeling the following sections within the abstract paragraph: Purpose, Method, Results, and Discussion/Conclusion. Non-traditional papers (e.g., photovoice, reviews, position papers) may use other labeling systems. The entire manuscript must be double-spaced. Line numbers should be inserted, continuous throughout the text, to facilitate the review process. Tables must be prepared using Microsoft Word’s table-formatting functions. Manuscripts should be no longer than 30 total pages, inclusive of title page, abstract pages, main text, references, figures, and tables. Occasionally, the journal editors will consider longer submissions, but authors are asked to request editorial approval before submitting papers longer than 30 pages. Special attention should be given to the accuracy of the references and APA style. Figures must be crisp, clear, and properly labeled. Do not submit low-resolution electronic files. Manuscripts should not be submitted to another journal at the same time. All quantitative studies must report effect sizes. To facilitate blind review, the first page of the manuscript should include only the title of the manuscript and the date of submission. The manuscript itself should contain no clues as to the author’s identity. A separate cover sheet with contact information is no longer required because the necessary identifying information is entered when registering with the online submission system.

Manuscripts will be acknowledged upon receipt and will be sent to two reviewers for blind review; the review process normally takes two to three months for an initial decision. Once the manuscript has been accepted, it will be published in the first available space after the final revision has been received. There are no page charges to authors.

Authors are welcome to make use of this manuscript template to help ensure that their submission is consistent with JTPE 's formatting and author guidelines. However, this is not a requirement and authors are free not to use the template if that is preferred.

Makel and Plucker (2014) proposed that replication is a powerful avenue to accumulate understanding by checking the validity of knowledge from previous research and enables questions concerning generalization across populations or contexts. Schmidt (2009) suggests that there are two primary forms of replication studies. The first includes "operational" replications that test the validity of the original data using similar procedures and research designs. The second are "constructive" replications, which attempt to replicate a research finding with different situations and different subjects, to determine if the basic findings of the original study can be applied to other participants and circumstances and is therefore linked to the wider notion of replication. In addition to the Manuscript Guidelines listed above, any Replication study submitted to JTPE must fall into one of these two categories.

Makel, M.C., & Plucker, J.A. (2014). Facts are more important than novelty: Replication of the education sciences. Educational Researcher , 43 , 304–316. Schmidt, S. (2009). Shall we really do it again? The powerful concept of replication is neglected in the social sciences. Review of General Psychology , 13 , 90–100.

Research Notes submitted to JTPE should meet the following guidelines:

Research Notes may consist of replication studies, data re-analyses studies, validation studies of existing instruments, and comments and dialogues on previously published papers. Manuscripts should use 12-point Times New Roman font and should be double-spaced (as per APA guidelines), with length not exceeding 14 pages, including text, references, tables, and figures. Consecutive line numbers should be inserted throughout the text to facilitate the review process. Submissions must include an abstract of 150 words or less. Research Notes should conform to the Publication Manual of the American Psychological Association (7th ed., 2020).

Review and Publishing Process

Research Notes follow the same review and publishing process as regular manuscripts.

The Journal of Teaching in Physical Education is committed to publishing reviews of recent books that contribute to physical education, physical education teacher education, and related fields. In some instances, the book review editor may identify books worthy of review and ask scholars to author a book review. In other instances, scholars may propose to review a book based on their interest and expertise. Prospective book review authors should first contact the section editor to discuss their interest and ensure that the book they wish to review is a fit for JTPE and is not already under review. The current book review section editor is Dr. Michael Hemphill ( [email protected] ).

Review Format

Book review authors should follow the Publication Manual of the American Psychological Association (7th edition, 2020) guidelines for journal article style. Keep references to a minimum. Check for the correct spelling of proper names. Check quotations for accuracy and make sure to provide page numbers for quotes. Reviews should be approximately 1,500 to 1,800 words. The text, including quotes and bibliographic information, should be double-spaced.

Bibliographic information for the book should be placed at the top of the review in the following format:

Title By Author(s). Publisher, year of publication, location of publisher, price, number of pages, ISBN. Reviewed by: Reviewer, institutional affiliation, location.

For example:

Reconceptualizing Physical Education: A Curriculum Framework for Physical Literacy, by Ang Chen. Routledge, 2022, New York, NY, $136, 276 pp., 9780367756949. Reviewed by: Michael Hemphill, University of North Carolina at Greensboro, Greensboro, NC.

Review Content

Book reviews should be relevant to readers of JTPE and be consistent with its mission to “stimulate discussion, study, and critique of teaching, teacher education, and curriculum as these fields relate to physical activity in schools, communities, higher education, and sport.” There are some books that would make an obvious fit to review for JTPE due to their purpose clearly relating to physical education. There may also be books from related areas that could be considered because they provide JTPE readers with insight into a topic of importance to our discipline. Prospective book review authors may contact the book review editor to discuss their interest in authoring a book review prior to committing to the project.

A good review provides description and analysis and attempts to situate a book in the larger scholarly conversation of the discipline. It is important to describe the author’s central thesis and the author’s approach to the text. The review should summarize the content and use examples to highlight key points; it should not be organized as a chapter-by-chapter synopsis of the book. Reviewers may choose to situate the book in relation to the author’s previous works, to scholarly debates in physical education or related areas, or to relevant literature in the field and particularly from JTPE . A constructive analysis of the book may include a summary of what makes it unique, strengths and weaknesses, the scope and relevance of its arguments, and/or its relationship to other published material. Book reviews often conclude by commenting on the book’s potential impact on the field, theoretical approach, or methodology. First-time reviewers are encouraged to read reviews that have appeared in other journals in related fields and from JTPE when possible.

Editorial Process

The submission of a review confirms that the review has not and will not appear elsewhere in published form. Book reviews will be received and edited by the Book Review Editor. Reviewers should note that the solicitation of a book review or the submission of an unsolicited review does not guarantee publication in the JTPE . Book review authors may be asked by the Book Review Editor to revise their reviews. The Book Review Editor makes recommendations for acceptance of reviews to the Editor of the journal. The Editor makes all final decisions about what will appear in the journal.

Acknowledgement

The guidelines for book reviews in JTPE were developed with insights from the book review section of the Sociology of Sport Journal .

Manuscripts must be submitted through ScholarOne, the online submission system for the Journal of Teaching in Physical Education (see submission button at the top of this page). ScholarOne manages the electronic transfer of manuscripts throughout the article review process, providing systematic instructions and a user-friendly design. Please access the site and follow the directions for authors submitting manuscripts.

Any problems that might be encountered can be easily resolved by selecting “Help" in the upper-right corner of any ScholarOne screen. Authors of manuscripts accepted for publication must transfer copyright to Human Kinetics, Inc. This copyright agreement can be viewed by visiting the ScholarOne site and selecting "Instructions & Forms" in the upper-right corner.

JTPE is committed to mentoring young scholars to be able to conduct high-quality, timely peer reviews. We use a reviewer onboarding system in which reviewers may invite a graduate student or young scholar to review a manuscript to provide them with valuable training experience. Authors will have the option during manuscript subscription to decline to have their manuscript be part of this process.

Effective July 1, 2019, JTPE has implemented new decision categories for submitted manuscripts. To review these categories, see the document below.

JTPE Decision Categories

Monograph proposals to JTPE should meet the following guidelines:

Manuscripts must use 12-point Times New Roman font (as per APA guidelines) and should be single-spaced, with length not exceeding 10 pages (including the overview but excluding the Appendix). Proposals should start with an overview chapter (Chapter 1), which clearly identifies the theme, scope, and need for the monograph. An overarching theoretical framework should inform the monograph. Individual chapters may also have additional/different theories that inform the work. Proposals should provide the abstracts for all chapters (6-10 chapters). Each chapter’s abstract should consist of the following elements: Title, Background, Purpose, Method, Data Analysis, Results, and Discussion/ Conclusions. Data should have already been collected at the time the proposal is submitted and results should be present in the proposal. Proposals should conform to the Publication Manual of the American Psychological Association (7th ed., 2020), except that the text should be single-spaced. Guest editors should be identified in the Appendix and serve as liaisons between chapter lead authors and JTPE coeditors. An Appendix should be submitted separately that provides the contact information of guest editors and the title of each of the chapters and its contributing authors with lead author contact information, along with an abbreviated CV (two pages) for each of the guest editors and lead authors. Proposals are due by July 31 of each year.

Review Process

All proposals are reviewed by a four-person review committee comprised of the two JTPE coeditors and two members of the JTPE editorial board.

Selection Process

The selection process is based on the following criteria: (a) relevance of topic and (2) quality of proposals, as determined by the four-person committee. Guest editors will be notified regarding the selection of monographs by September 15 of each year. If selected, guest editors must submit a complete monograph for further consideration in JTPE .

Publishing Process

The complete monograph is due three months after notification of selection (by December 15). Once received, the monograph will be reviewed by the four-person review committee through the online review process, with reviews sent only to the monograph guest editors. Henceforth, the review process continues following the standard JTPE format until the monograph is considered ready for publication or the monograph is rejected.

The following guidelines are intended to help scholars prepare a special issue proposal. Proposals on time-sensitive topics may be considered for publication as a special series at the Editor’s discretion. In no more than four pages, author(s) should address the following questions using the headings provided.

Synopsis In 150 words or less, what is your special issue about? Important: Be sure to include its main themes and objectives. Rationale What are you proposing to do differently/more innovatively/better than has already been done on the topic (in JTPE specifically, as well as in the field more generally)? Why is now the time for a special issue on this topic? Why is JTPE the most appropriate venue for this topic? What are the main competing works on the topic (e.g., edited books, other special issues)? List up to five articles recently published on the topic that show breadth of scope and authorship in the topic. Qualifications Are you proposing to serve as Guest Editor for this special issue? If so, Please provide your vitae. Have you edited/co-edited a special issue before? If yes, please give the citation(s). Do you currently serve on any journal editorial boards? If yes, please list. If not, who do you suggest for a potential Guest Editor? Timeline Given that it takes approximately 12 months to complete a special issue, please provide a detailed timeline including estimated dates or time frames for the following steps: (a) Call for papers (b) Submission deadline (c) Review process (averages 4 months) (d) Revision process (averages 3 months) (e) Final editing and approval from JTPE editor (f) Completion and submission to Human Kinetics (must be at least 3 months prior to the issue cover month; e.g., completion by January 1 for the April issue)

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Individuals may purchase online-only subscriptions directly from this website. To order, click on an article and select the subscription option you desire for the journal of interest (individual or student, 1-year or 2-year), and then click Buy. Those purchasing student subscriptions must be prepared to provide proof of student status as a degree-seeking candidate at an accredited institution. Online-only subscriptions purchased via this website provide immediate access to all the journal's content, including all archives and Ahead of Print. Note that a subscription does not allow access to all the articles on this website, but only to those articles published in the journal you subscribe to. For step-by-step instructions to purchase online, click here .

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JTPE Editors and Reviewers Resource Center

Eligibility criteria and responsibilities of jtpe co-editors.

JTPE co-editors are selected from the members of the editorial board. Upon selection, they serve as junior co-editor for a specified term of two years. Upon completion of this period, they serve as senior co-editor for another two-year term.

Eligibility Criteria Eligibility for JTPE co-editor appointments is based on the following criteria:

1. Co-editor candidates have published three manuscripts in the last five years in tier one journals (requirements: one publication in JTPE and one first authorship publication). 2. Co-editor candidates have demonstrated high-quality reviews in a timely manner while on the JTPE editorial board (a minimum of six reviews per year during the three-year term). 3. Co-editor candidates have served as JTPE editorial board members for six years (i.e., two terms) before selection.

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B. Guidelines for the Review of Manuscripts Pertaining to Theoretical, Philosophical, and/or Applied Issues of Professional Practice

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III. Discussion or Interpretation of Ideas and Information:

1. Has the author built constructive arguments that advance theory, knowledge, and/or applications related to the scope of the journal (teaching/learning in physical education)? 2. Is relevant literature adequately critiqued and integrated into the arguments? 3. Are the arguments based on well-reasoned thoughts, rather than emotions? 4. Does the reasoning throughout the manuscript seem to be sound? 5. Are the conclusions consistent with the arguments developed or the empirical evidence reviewed? 6. Are practical implications of the arguments and/or ideas emphasized?

C. Guidelines for Reviewing Manuscripts the Second or Third Time:

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Guest Reviewers

Guest reviewers must have an earned doctoral degree specializing in sport pedagogy or related fields. Doctoral students (in the third year of their programs or beyond) may also participate as a JTPE guest reviewer under the supervision of their doctoral mentors.

JOURNAL OF PHYSICAL

Education research, issn online : 2394-4056, issn print : 2394-4048, issn online : 2394-4056, issn print : 2394-4048, bring out the latest developments in the field of physical education, plant, animal and environmental sciences.

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Journal of Physical Education Research (JOPER) is a scientific publication. It is a peer reviewed and referred journal, officially publishes original research articles on Physical Education and its allied sciences. The JOPER is an open access international journal has four annual issues (March, June, September and December), with its own issue number and supplements if necessary for each issue. JOPER publishes in both printed and online version. It is devoted to the promotion of physical education and allied sciences. The experiences of different countries are very important to share on a platform like this. Therefore, this international journal serves to bring scholars from diver's background interns of their domain of specialization and scholarships and will enrich our understanding of various issues related to the physical education and sports. It also provides an International forum for the communication and evaluation of data, methods and findings in physical education and allied sciences. Based on the international character of the Journal, the articles/research papers can be published by authors from all over the world. The journal is under the indexing phase in several international bodies and organizations. The journal publishes scientific publications according to the criteria listed in the Guidelines for the Authors. Everyone who has met the requirements of the journal and who takes full responsibility for all that is written in the publication has the right to publish their article with us. The review and the corrections made by the editorial board and its associates do not dismiss the author (the co-authors) from the responsibility for his/her publication, and they also do not change its originality.

JOPER welcomes research articles from physical educators, sports scientists, health educators, coaches, athlete trainers and research scholars profoundly involved in physical education researches from all over the world to report their research findings and experiences with us. Applications of the publications are open throughout the year.

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Home > USC Columbia > Education, College of > Physical Education > Physical Education Theses and Dissertations

Physical Education Theses and Dissertations

Theses/dissertations from 2022 2022.

Elucidating the Interdependence of Motor-Cognitive Development and Performance , Thomas Cade Abrams

Evaluation of the Throw-Catch Assessment , Bryan Terlizzi

Theses/Dissertations from 2021 2021

Develop or Diminish? An Exploration of Adolescent Athlete Flow Experiences , Hayes Mayfield Bennett

Three Studies Investigating Comprehensive School Physical Activity Program-Aligned Opportunities To Enhance Students’ Physical Education Learning , Jongho Moon

Relationship of General Athletic Performance Markers to Intra-Team Ranking Of Sport Performance , Steven Keith Scruggs II

Theses/Dissertations from 2020 2020

Elementary Physical Education Teacher Perceptions of Motor Skill Assessment , Jenna Fisher

Motor Competence and Quality of Life in Youth with Cancer and Visual Impairments , Emily N. Gilbert

Two Studies of Inclusive and Augmented Physical Education , Matthew Patey

Functional Motor Competence and Physical Military Readiness , Kyle Silvey

The Tripartite Model of Efficacy Beliefs for Youth With Visual Impairments , Alexandra Stribing

Theses/Dissertations from 2019 2019

United States Principals’ Involvement in Comprehensive School Physical Activity Programs: A Social-Ecological Perspective , Karie Lee Orendorff

Multidimenstional Balance in Youth with Visual Impairments , Adam Pennell

Two Studies Conceptualizing Physical Literacy for Assessment of High School Students in the United States , Chelsee Shortt

Theses/Dissertations from 2018 2018

New Insight For Activity Intensity Relativity: Metabolic Expenditure During Object Projection Skill Performance , Ryan S. Sacko

Three Studies Concerning Movement Integration In Low Socioeconomic Elementary School Classrooms , Gregory L. Stewart

The Effects of an Integrative Universally Designed Motor Skill Intervention across General, Inclusion, and Self-Contained Early Childhood Center Classrooms , Sally A. Taunton

Theses/Dissertations from 2017 2017

Two Studies of Partnership Approaches to Comprehensive School Physical Activity Programming: A Process Evaluation and a Case Study , Catherine A. Egan

Three Studies Of Service-Learning As An Approach To Movement Integration In Elementary Classrooms , Robert D. Michael, Jr.

Functional Motor Competence, Health-Related Fitness, and Injury in Youth Sport , Craig Elliott Pfeifer

Branded for Success: A Longitudinal Examination of Brand Associations as Drivers of Team Identification for a New Sport Brand , Henry Wear

Theses/Dissertations from 2016 2016

Examing Supine-To-Stand As A Measure Of Functional Motor Competence And Health Across The Lifespan , Danielle Rene Nesbitt

Theses/Dissertations from 2015 2015

Hypertension Health Behavior Change and Older Adults: the effect of an Appreciative Education Approach , Mary Katherine Benya

Preservice Physical Education Teacher’s Value Orientations across the Student Teaching Semester , Heesu Lee

The Subjective Warrant for Teaching Physical Education in South Carolina , Matthew Blake Lineberger

Integration of Impulse-Variability Theory and the Speed-Accuracy Trade-Off in Children's Multijoint Ballistic Skill Performance , Sergio Lupe Molina

Two Studies To Inform Comprehensive School Physical Activity Programming: A Systematic Review of Program Effectiveness and the Development of an Observational Measure for Classroom-Based Physical Activity Promotion , Laura B. Russ

Theses/Dissertations from 2014 2014

Impact of an Educational Gymnastics Course on the Motor Skills and Health-Related Fitness Components of Physical Education Teacher Education Students , Liana Webster

DESCRIPTION OF THE PRACTICE HISTORIES AND KNOWLEDGE STRUCTURES OF HIGH SCHOOL BASEBALL PLAYERS , Benjamin Joseph Wellborn

Theses/Dissertations from 2013 2013

A Case Study Seeking Indicators of Coherence in a PETE Program , Robert John Doan

The Effects of Attentional Focus Cues and Feedback On Motor Skill Learning In Children , Melanie Elizabeth Perreault

Theses/Dissertations from 2012 2012

Retrospective Practice Histories of Division I and Division II Female Basketball Players in the Carolinas , Anthony Steven Smith

Theses/Dissertations from 2011 2011

A Comparison of Selected Supervisory Skills of Content Specialist and Non-content Specialist University Supervisors , Kevin Paul Hunt

Developmental Trends In the Dance Performance of Children Age Six to Nine , Stephanie L. Little

Time to Sodium Absorption At Rest Between Three Different Beverages , Rachel Leanne Sharpe

Theses/Dissertations from 2010 2010

Retrospective Practice Histories of Expert and Novice Baseball Pitchers , Robert M. Cathey

An Examination of Student Situational Interest and Contextual Variable Preference in Physical Education , Rachel Lynn Harvey

Teaching Behaviors, Student Motivation and Achievement In the Learning Domains of Physical Education , Jody Leigh Langdon

Comparison of Instruments to Assess Clinical Behavior In Athletic Training Education , Joseph M. Murphy

The Coach-Athlete Dyad and the Basic Psychological Needs In American Collegiate Athletics , Raylene Ross

Theses/Dissertations from 2009 2009

The Effect of Uncompensable Heat Stress On Fatigue, Physiological, and Perceptual Measures , Charles C. Emerson

The Relationship Between Sodium Concentrations and Common Clinical Hydration Measures During Exercise , Dawn Marie Minton

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Physical Education, Schools and Lifelong Habits

Loading... Editorial 25 April 2023 Editorial: Physical education, schools and lifelong habits Javier Cachón-Zagalaz , Víctor Arufe-Giraldez , Ángel Ramón Romance-García and María Luisa Zagalaz-Sánchez 698 views 0 citations

Loading... Study Protocol 27 April 2023 Design, methodology, and baseline of eastern China student health and wellbeing cohort study Xiyan Zhang , 13 more and ES-SCI Work Group 3,040 views 0 citations

Loading... Original Research 16 January 2023 Perceived insufficient pedagogical content knowledge in teaching movement and physical activity. Experiences from an action-oriented study among educators in early childhood education and care Ann-Christin Sollerhed 1,604 views 3 citations

Loading... Original Research 28 September 2022 Study protocol of “From Science 2 School”—prevalence of sports and physical exercise linked to omnivorous, vegetarian and vegan, diets among Austrian secondary schools Katharina C. Wirnitzer , 7 more and Werner Kirschner 2,545 views 4 citations

Original Research 14 September 2022 “Nothing Is Gonna Change If We Don't Care for Everyone”: A Narrative Inquiry Alongside Urban Indigenous Youth in an Afterschool Physical Activity Wellness Program Brian Lewis , 2 more and Jordan Koch 1,810 views 0 citations

Articles on Physical education

Displaying 1 - 20 of 36 articles.

New government guidance for PE lets teachers and pupils down

David Grecic , University of Central Lancashire ; Alan Thomson , University of Central Lancashire , and Andrew Sprake , University of Central Lancashire

Is exercise really good for the brain? Here’s what the science says

Matthieu P. Boisgontier , L’Université d’Ottawa/University of Ottawa and Boris Cheval , Université de Genève

Girls should get the chance to play football at school – but PE needs a major rehaul for all students

Shrehan Lynch , University of East London

School playgrounds are getting squeezed: here are 8 ways to keep students active in small spaces

Brendon Hyndman , Charles Sturt University ; Jessica Amy Sears , Charles Sturt University , and Vaughan Cruickshank , University of Tasmania

Outdoor education has psychological, cognitive and physical health benefits for children

Jean-Philippe Ayotte-Beaudet , Université de Sherbrooke and Felix Berrigan , Université de Sherbrooke

London’s Olympic legacy: research reveals why £2.2 billion investment in primary school PE has failed teachers

Vicky Randall , University of Winchester and Gerald Griggs

How sport can help young people to become better citizens

Vaughan Cruickshank , University of Tasmania and Casey Peter Mainsbridge , University of Tasmania

Missing out on PE during lockdowns means students will be playing catch-up

Jora Broerse , Victoria University ; Cameron Van der Smee , Federation University Australia , and Jaimie-Lee Maple , Victoria University

Disabled children still face exclusion in PE – here’s what needs to change

Tom Gibbons , Teesside University and Kevin Dixon , Northumbria University, Newcastle

Taking the circus to school: How kids benefit from learning trapeze, juggling and unicycle in gym class

Marion Cossin , Université de Montréal

Thinking of choosing a health or PE subject in years 11 and 12? Here’s what you need to know

Brendon Hyndman , Charles Sturt University and Vaughan Cruickshank , University of Tasmania

Aussie kids are some of the least active in the world. We developed a cheap school program that gets results

Taren Sanders , Australian Catholic University ; Chris Lonsdale , Australian Catholic University ; David Lubans , University of Newcastle ; Michael Noetel , Australian Catholic University , and Philip D Parker , Australian Catholic University

When men started to obsess over six-packs

Conor Heffernan , The University of Texas at Austin

PE can do much more than keep children fit – but its many benefits are often overlooked

David Grecic , University of Central Lancashire ; Andrew Sprake , University of Central Lancashire , and Robin Taylor , University of Central Lancashire

Distance learning makes it harder for kids to exercise, especially in low-income communities

Katelyn Esmonde , Johns Hopkins University and Keshia Pollack Porter , Johns Hopkins University

Kids need physical education – even when they can’t get it at school

Collin A. Webster , University of South Carolina

Learning through adventure: the many skills that can be taught outside the classroom

Gary Stidder , University of Brighton

Kids aren’t getting enough exercise, even in sporty Seattle

Julie McCleery , University of Washington

Bushwalking and bowls in schools: we need to teach kids activities they’ll go on to enjoy

Vaughan Cruickshank , University of Tasmania ; Brendon Hyndman , Charles Sturt University , and Shane Pill , Flinders University

How children who dread PE lessons at school can be given a sporting chance

Kiara Lewis , University of Huddersfield

Top contributors

Senior Lecturer in Health and Physical Education, University of Tasmania

Lecturer in Physical Education & Sport / Course Leader MA in Physical Education and School Sport, University of Central Lancashire

Senior Manager, Brisbane Catholic Education & Associate Professor of Education (Adjunct), Charles Sturt University

Reader in Sports Science (Clinical Physiology), University of Essex

Professor of Sport and Physical Education, University of Central Lancashire

Senior Lecturer in Psychology, The University of Queensland

Lecturer in Developmental Psychology, The University of Edinburgh

Assistant Professor of Psychological and Behavioural Science, London School of Economics and Political Science

Associate Professor in Physiology, Exercise and Nutrition, University of Stirling

Senior Research Fellow, Australian Catholic University

Senior Lecturer, School of Sport, Exercise & Rehabilitation Sciences, University of Birmingham

Senior Lecturer in Physiology, Exercise and Nutrition, University of Stirling

Professor, Medical Research Future Fund Emerging Leader, University of South Australia

Senior Lecturer, Sport, Exercise and Health Sciences, Loughborough University

Senior Lecturer, Department for Health, Humanities and Social Sciences, University of Bath

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Committee on Physical Activity and Physical Education in the School Environment; Food and Nutrition Board; Institute of Medicine; Kohl HW III, Cook HD, editors. Educating the Student Body: Taking Physical Activity and Physical Education to School. Washington (DC): National Academies Press (US); 2013 Oct 30.

Educating the Student Body: Taking Physical Activity and Physical Education to School.

Hardcopy Version at National Academies Press

4 Physical Activity, Fitness, and Physical Education: Effects on Academic Performance

Key messages.

Evidence suggests that increasing physical activity and physical fitness may improve academic performance and that time in the school day dedicated to recess, physical education class, and physical activity in the classroom may also facilitate academic performance.
Available evidence suggests that mathematics and reading are the academic topics that are most influenced by physical activity. These topics depend on efficient and effective executive function, which has been linked to physical activity and physical fitness.
Executive function and brain health underlie academic performance. Basic cognitive functions related to attention and memory facilitate learning, and these functions are enhanced by physical activity and higher aerobic fitness.
Single sessions of and long-term participation in physical activity improve cognitive performance and brain health. Children who participate in vigorous- or moderate-intensity physical activity benefit the most.
Given the importance of time on task to learning, students should be provided with frequent physical activity breaks that are developmentally appropriate.
Although presently understudied, physically active lessons offered in the classroom may increase time on task and attention to task in the classroom setting.

Although academic performance stems from a complex interaction between intellect and contextual variables, health is a vital moderating factor in a child's ability to learn. The idea that healthy children learn better is empirically supported and well accepted ( Basch, 2010 ), and multiple studies have confirmed that health benefits are associated with physical activity, including cardiovascular and muscular fitness, bone health, psychosocial outcomes, and cognitive and brain health ( Strong et al., 2005 ; see Chapter 3 ). The relationship of physical activity and physical fitness to cognitive and brain health and to academic performance is the subject of this chapter.

Given that the brain is responsible for both mental processes and physical actions of the human body, brain health is important across the life span. In adults, brain health, representing absence of disease and optimal structure and function, is measured in terms of quality of life and effective functioning in activities of daily living. In children, brain health can be measured in terms of successful development of attention, on-task behavior, memory, and academic performance in an educational setting. This chapter reviews the findings of recent research regarding the contribution of engagement in physical activity and the attainment of a health-enhancing level of physical fitness to cognitive and brain health in children. Correlational research examining the relationship among academic performance, physical fitness, and physical activity also is described. Because research in older adults has served as a model for understanding the effects of physical activity and fitness on the developing brain during childhood, the adult research is briefly discussed. The short- and long-term cognitive benefits of both a single session of and regular participation in physical activity are summarized.

Before outlining the health benefits of physical activity and fitness, it is important to note that many factors influence academic performance. Among these are socioeconomic status ( Sirin, 2005 ), parental involvement ( Fan and Chen, 2001 ), and a host of other demographic factors. A valuable predictor of student academic performance is a parent having clear expectations for the child's academic success. Attendance is another factor confirmed as having a significant impact on academic performance ( Stanca, 2006 ; Baxter et al., 2011 ). Because children must be present to learn the desired content, attendance should be measured in considering factors related to academic performance.

PHYSICAL FITNESS AND PHYSICAL ACTIVITY: RELATION TO ACADEMIC PERFORMANCE

State-mandated academic achievement testing has had the unintended consequence of reducing opportunities for children to be physically active during the school day and beyond. In addition to a general shifting of time in school away from physical education to allow for more time on academic subjects, some children are withheld from physical education classes or recess to participate in remedial or enriched learning experiences designed to increase academic performance ( Pellegrini and Bohn, 2005 ; see Chapter 5 ). Yet little evidence supports the notion that more time allocated to subject matter will translate into better test scores. Indeed, 11 of 14 correlational studies of physical activity during the school day demonstrate a positive relationship to academic performance ( Rasberry et al., 2011 ). Overall, a rapidly growing body of work suggests that time spent engaged in physical activity is related not only to a healthier body but also to a healthier mind ( Hillman et al., 2008 ).

Children respond faster and with greater accuracy to a variety of cognitive tasks after participating in a session of physical activity ( Tomporowski, 2003 ; Budde et al., 2008 ; Hillman et al., 2009 ; Pesce et al., 2009 ; Ellemberg and St-Louis-Deschênes, 2010 ). A single bout of moderate-intensity physical activity has been found to increase neural and behavioral concomitants associated with the allocation of attention to a specific cognitive task ( Hillman et al., 2009 ; Pontifex et al., 2012 ). And when children who participated in 30 minutes of aerobic physical activity were compared with children who watched television for the same amount of time, the former children cognitively outperformed the latter ( Ellemberg and St-Louis-Desêhenes, 2010 ). Visual task switching data among 69 overweight and inactive children did not show differences between cognitive performance after treadmill walking and sitting ( Tomporowski et al., 2008b ).

When physical activity is used as a break from academic learning time, postengagement effects include better attention ( Grieco et al., 2009 ; Bartholomew and Jowers, 2011 ), increased on-task behaviors ( Mahar et al., 2006 ), and improved academic performance ( Donnelly and Lambourne, 2011 ). Comparisons between 1st-grade students housed in a classroom with stand-sit desks where the child could stand at his/her discretion and in classrooms containing traditional furniture showed that the former children were highly likely to stand, thus expending significantly more energy than those who were seated ( Benden et al., 2011 ). More important, teachers can offer physical activity breaks as part of a supplemental curriculum or simply as a way to reset student attention during a lesson ( Kibbe et al., 2011 ; see Chapter 6 ) and when provided with minimal training can efficaciously produce vigorous or moderate energy expenditure in students ( Stewart et al., 2004 ). Further, after-school physical activity programs have demonstrated the ability to improve cardiovascular endurance, and this increase in aerobic fitness has been shown to mediate improvements in academic performance ( Fredericks et al., 2006 ), as well as the allocation of neural resources underlying performance on a working memory task ( Kamijo et al., 2011 ).

Over the past three decades, several reviews and meta-analyses have described the relationship among physical fitness, physical activity, and cognition (broadly defined as all mental processes). The majority of these reviews have focused on the relationship between academic performance and physical fitness—a physiological trait commonly defined in terms of cardiorespiratory capacity (e.g., maximal oxygen consumption; see Chapter 3 ). More recently, reviews have attempted to describe the effects of an acute or single bout of physical activity, as a behavior, on academic performance. These reviews have focused on brain health in older adults ( Colcombe and Kramer, 2003 ), as well as the effects of acute physical activity on cognition in adults ( Tomporowski, 2003 ). Some have considered age as part of the analysis ( Etnier et al., 1997 , 2006 ). Reviews focusing on research conducted in children ( Sibley and Etnier, 2003 ) have examined the relationship among physical activity, participation in sports, and academic performance ( Trudeau and Shephard, 2008 , 2010 ; Singh et al., 2012 ); physical activity and mental and cognitive health ( Biddle and Asare, 2011 ); and physical activity, nutrition, and academic performance ( Burkhalter and Hillman, 2011 ). The findings of most of these reviews align with the conclusions presented in a meta-analytic review conducted by Fedewa and Ahn (2011) . The studies reviewed by Fedewa and Ahn include experimental/quasi-experimental as well as cross-sectional and correlational designs, with the experimental designs yielding the highest effect sizes. The strongest relationships were found between aerobic fitness and achievement in mathematics, followed by IQ and reading performance. The range of cognitive performance measures, participant characteristics, and types of research design all mediated the relationship among physical activity, fitness, and academic performance. With regard to physical activity interventions, which were carried out both within and beyond the school day, those involving small groups of peers (around 10 youth of a similar age) were associated with the greatest gains in academic performance.

The number of peer-reviewed publications on this topic is growing exponentially. Further evidence of the growth of this line of inquiry is its increased global presence. Positive relationships among physical activity, physical fitness, and academic performance have been found among students from the Netherlands ( Singh et al., 2012 ) and Taiwan ( Chih and Chen, 2011 ). Broadly speaking, however, many of these studies show small to moderate effects and suffer from poor research designs ( Biddle and Asare, 2011 ; Singh et al., 2012 ).

Basch (2010) conducted a comprehensive review of how children's health and health disparities influence academic performance and learning. The author's report draws on empirical evidence suggesting that education reform will be ineffective unless children's health is made a priority. Basch concludes that schools may be the only place where health inequities can be addressed and that, if children's basic health needs are not met, they will struggle to learn regardless of the effectiveness of the instructional materials used. More recently, Efrat (2011) conducted a review of physical activity, fitness, and academic performance to examine the achievement gap. He discovered that only seven studies had included socioeconomic status as a variable, despite its known relationship to education ( Sirin, 2005 ).

Physical Fitness as a Learning Outcome of Physical Education and Its Relation to Academic Performance

Achieving and maintaining a healthy level of aerobic fitness, as defined using criterion-referenced standards from the National Health and Nutrition Examination Survey (NHANES; Welk et al., 2011 ), is a desired learning outcome of physical education programming. Regular participation in physical activity also is a national learning standard for physical education, a standard intended to facilitate the establishment of habitual and meaningful engagement in physical activity ( NASPE, 2004 ). Yet although physical fitness and participation in physical activity are established as learning outcomes in all 50 states, there is little evidence to suggest that children actually achieve and maintain these standards (see Chapter 2 ).

Statewide and national datasets containing data on youth physical fitness and academic performance have increased access to student-level data on this subject ( Grissom, 2005 ; Cottrell et al., 2007 ; Carlson et al., 2008 ; Chomitz et al., 2008 ; Wittberg et al., 2010 ; Van Dusen et al., 2011 ). Early research in South Australia focused on quantifying the benefits of physical activity and physical education during the school day; the benefits noted included increased physical fitness, decreased body fat, and reduced risk for cardiovascular disease ( Dwyer et al., 1979 , 1983 ). Even today, Dwyer and colleagues are among the few scholars who regularly include in their research measures of physical activity intensity in the school environment, which is believed to be a key reason why they are able to report differentiated effects of different intensities. A longitudinal study in Trois-Rivières, Québec, Canada, tracked how the academic performance of children from grades 1 through 6 was related to student health, motor skills, and time spent in physical education. The researchers concluded that additional time dedicated to physical education did not inhibit academic performance ( Shephard et al., 1984 ; Shephard, 1986 ; Trudeau and Shephard, 2008 ).

Longitudinal follow-up investigating the long-term benefits of enhanced physical education experiences is encouraging but largely inconclusive. In a study examining the effects of daily physical education during elementary school on physical activity during adulthood, 720 men and women completed the Québec Health Survey ( Trudeau et al., 1999 ). Findings suggest that physical education was associated with physical activity in later life for females but not males ( Trudeau et al., 1999 ); most of the associations were significant but weak ( Trudeau et al., 2004 ). Adult body mass index (BMI) at age 34 was related to childhood BMI at ages 10-12 in females but not males ( Trudeau et al., 2001 ). Longitudinal studies such as those conducted in Sweden and Finland also suggest that physical education experiences may be related to adult engagement in physical activity ( Glenmark, 1994 ; Telama et al., 1997 ). From an academic performance perspective, longitudinal data on men who enlisted for military service imply that cardiovascular fitness at age 18 predicted cognitive performance in later life (Aberg et al., 2009), thereby supporting the idea of offering physical education and physical activity opportunities well into emerging adulthood through secondary and postsecondary education.

Castelli and colleagues (2007) investigated younger children (in 3rd and 5th grades) and the differential contributions of the various subcomponents of the Fitnessgram ® . Specifically, they examined the individual contributions of aerobic capacity, muscle strength, muscle flexibility, and body composition to performance in mathematics and reading on the Illinois Standardized Achievement Test among a sample of 259 children. Their findings corroborate those of the California Department of Education ( Grissom, 2005 ), indicating a general relationship between fitness and achievement test performance. When the individual components of the Fitnessgram were decomposed, the researchers determined that only aerobic capacity was related to test performance. Muscle strength and flexibility showed no relationship, while an inverse association of BMI with test performance was observed, such that higher BMI was associated with lower test performance. Although Baxter and colleagues (2011) confirmed the importance of attending school in relation to academic performance through the use of 4th-grade student recall, correlations with BMI were not significant.

State-mandated implementation of the coordinated school health model requires all schools in Texas to conduct annual fitness testing using the Fitnessgram among students in grades 3-12. In a special issue of Research Quarterly for Exercise and Sport (2010), multiple articles describe the current state of physical fitness among children in Texas; confirm the associations among school performance levels, academic achievement, and physical fitness ( Welk et al., 2010 ; Zhu et al., 2010 ); and demonstrate the ability of qualified physical education teachers to administer physical fitness tests ( Zhu et al., 2010 ). Also using data from Texas schools, Van Dusen and colleagues (2011) found that cardiovascular fitness had the strongest association with academic performance, particularly in mathematics over reading. Unlike previous research, which demonstrated a steady decline in fitness by developmental stage ( Duncan et al., 2007 ), this study found that cardiovascular fitness did decrease but not significantly ( Van Dusen et al., 2011 ). Aerobic fitness, then, may be important to academic performance, as there may be a dose-response relationship ( Van Dusen et al., 2011 ).

Using a large sample of students in grades 4-8, Chomitz and colleagues (2008) found that the likelihood of passing both mathematics and English achievement tests increased with the number of fitness tests passed during physical education class, and the odds of passing the mathematics achievement tests were inversely related to higher body weight. Similar to the findings of Castelli and colleagues (2007) , socioeconomic status and demographic factors explained little of the relationship between aerobic fitness and academic performance; however, socioeconomic status may be an explanatory variable for students of low fitness ( London and Castrechini, 2011 ).

In sum, numerous cross-sectional and correlational studies demonstrate small-to-moderate positive or null associations between physical fitness ( Grissom, 2005 ; Cottrell et al., 2007 ; Edwards et al., 2009; Eveland-Sayers et al., 2009 ; Cooper et al., 2010 ; Welk et al., 2010 ; Wittberg et al., 2010 ; Zhu et al., 2010 ; Van Dusen et al., 2011 ), particularly aerobic fitness, and academic performance ( Castelli et al, 2007 ; Chomitz et al., 2008 ; Roberts et al., 2010 ; Welk et al., 2010 ; Chih and Chen, 2011 ; London and Castrechini, 2011 ; Van Dusen et al., 2011 ). Moreover, the findings may support a dose-response association, suggesting that the more components of physical fitness (e.g., cardiovascular endurance, strength, muscle endurance) considered acceptable for the specific age and gender that are present, the greater the likelihood of successful academic performance. From a public health and policy standpoint, the conclusions these findings support are limited by few causal inferences, a lack of data confirmation, and inadequate reliability because the data were often collected by nonresearchers or through self-report methods. It may also be noted that this research includes no known longitudinal studies and few randomized controlled trials (examples are included later in this chapter in the discussion of the developing brain).

Physical Activity, Physical Education, and Academic Performance

In contrast with the correlational data presented above for physical fitness, more information is needed on the direct effects of participation in physical activity programming and physical education classes on academic performance.

In a meta-analysis, Sibley and Etnier (2003) found a positive relationship between physical activity and cognition in school-age youth (aged 4-18), suggesting that physical activity, as well as physical fitness, may be related to cognitive outcomes during development. Participation in physical activity was related to cognitive performance in eight measurement categories (perceptual skills, IQ, achievement, verbal tests, mathematics tests, memory, developmental level/academic readiness, and “other”), with results indicating a beneficial relationship of physical activity to all cognitive outcomes except memory ( Sibley and Etnier, 2003 ). Since that meta-analysis, however, several papers have reported robust relationships between aerobic fitness and different aspects of memory in children (e.g., Chaddock et al., 2010a , 2011 ; Kamijo et al., 2011 ; Monti et al., 2012 ). Regardless, the comprehensive review of Sibley and Etnier (2003) was important because it helped bring attention to an emerging literature suggesting that physical activity may benefit cognitive development even as it also demonstrated the need for further study to better understand the multifaceted relationship between physical activity and cognitive and brain health.

The regular engagement in physical activity achieved during physical education programming can also be related to academic performance, especially when the class is taught by a physical education teacher. The Sports, Play, and Active Recreation for Kids (SPARK) study examined the effects of a 2-year health-related physical education program on academic performance in children ( Sallis et al., 1999 ). In an experimental design, seven elementary schools were randomly assigned to one of three conditions: (1) a specialist condition in which certified physical education teachers delivered the SPARK curriculum, (2) a trained-teacher condition in which classroom teachers implemented the curriculum, and (3) a control condition in which classroom teachers implemented the local physical education curriculum. No significant differences by condition were found for mathematics testing; however, reading scores were significantly higher in the specialist condition relative to the control condition ( Sallis et al., 1999 ), while language scores were significantly lower in the specialist condition than in the other two conditions. The authors conclude that spending time in physical education with a specialist did not have a negative effect on academic performance. Shortcomings of this research include the amount of data loss from pre- to posttest, the use of results of 2nd-grade testing that exceeded the national average in performance as baseline data, and the use of norm-referenced rather than criterion-based testing.

In seminal research conducted by Gabbard and Barton (1979) , six different conditions of physical activity (no activity; 20, 30, 40, and 50 minutes; and posttest no activity) were completed by 106 2nd graders during physical education. Each physical activity session was followed by 5 minutes of rest and the completion of 36 math problems. The authors found a potential threshold effect whereby only the 50-minute condition improved mathematical performance, with no differences by gender.

A longitudinal study of the kindergarten class of 1998–1999, using data from the Early Childhood Longitudinal Study, investigated the association between enrollment in physical education and academic achievement ( Carlson et al., 2008 ). Higher amounts of physical education were correlated with better academic performance in mathematics among females, but this finding did not hold true for males.

Ahamed and colleagues (2007) found in a cluster randomized trial that, after 16 months of a classroom-based physical activity intervention, there was no significant difference between the treatment and control groups in performance on the standardized Cognitive Abilities Test, Third Edition (CAT-3). Others have found, however, that coordinative exercise ( Budde et al., 2008 ) or bouts of vigorous physical activity during free time ( Coe et al., 2006 ) contribute to higher levels of academic performance. Specifically, Coe and colleagues examined the association of enrollment in physical education and self-reported vigorous- or moderate-intensity physical activity outside school with performance in core academic courses and on the Terra Nova Standardized Achievement Test among more than 200 6th-grade students. Their findings indicate that academic performance was unaffected by enrollment in physical education classes, which were found to average only 19 minutes of vigorous- or moderate-intensity physical activity. When time spent engaged in vigorous- or moderate-intensity physical activity outside of school was considered, however, a significant positive relation to academic performance emerged, with more time engaged in vigorous- or moderate-intensity physical activity being related to better grades but not test scores ( Coe et al., 2006 ).

Studies of participation in sports and academic achievement have found positive associations ( Mechanic and Hansell, 1987 ; Dexter, 1999 ; Crosnoe, 2002 ; Eitle and Eitle, 2002 ; Stephens and Schaben, 2002 ; Eitle, 2005 ; Miller et al., 2005 ; Fox et al., 2010 ; Ruiz et al., 2010 ); higher grade point averages (GPAs) in season than out of season ( Silliker and Quirk, 1997 ); a negative association between cheerleading and science performance ( Hanson and Kraus, 1998 ); and weak and negative associations between the amount of time spent participating in sports and performance in English-language class among 13-, 14-, and 16-year-old students ( Daley and Ryan, 2000 ). Other studies, however, have found no association between participation in sports and academic performance ( Fisher et al., 1996 ). The findings of these studies need to be interpreted with caution as many of their designs failed to account for the level of participation by individuals in the sport (e.g., amount of playing time, type and intensity of physical activity engagement by sport). Further, it is unclear whether policies required students to have higher GPAs to be eligible for participation. Offering sports opportunities is well justified regardless of the cognitive benefits, however, given that adolescents may be less likely to engage in risky behaviors when involved in sports or other extracurricular activities ( Page et al., 1998 ; Elder et al., 2000 ; Taliaferro et al., 2010 ), that participation in sports increases physical fitness, and that affiliation with sports enhances school connectedness.

Although a consensus on the relationship of physical activity to academic achievement has not been reached, the vast majority of available evidence suggests the relationship is either positive or neutral. The meta-analytic review by Fedewa and Ahn (2011) suggests that interventions entailing aerobic physical activity have the greatest impact on academic performance; however, all types of physical activity, except those involving flexibility alone, contribute to enhanced academic performance, as do interventions that use small groups (about 10 students) rather than individuals or large groups. Regardless of the strength of the findings, the literature indicates that time spent engaged in physical activity is beneficial to children because it has not been found to detract from academic performance, and in fact can improve overall health and function ( Sallis et al., 1999 ; Hillman et al., 2008 ; Tomporowski et al., 2008a ; Trudeau and Shephard, 2008 ; Rasberry et al., 2011 ).

Single Bouts of Physical Activity

Beyond formal physical education, evidence suggests that multi-component approaches are a viable means of providing physical activity opportunities for children across the school curriculum (see also Chapter 6 ). Although health-related fitness lessons taught by certified physical education teachers result in greater student fitness gains relative to such lessons taught by other teachers ( Sallis et al., 1999 ), non-physical education teachers are capable of providing opportunities to be physically active within the classroom ( Kibbe et al., 2011 ). Single sessions or bouts of physical activity have independent merit, offering immediate benefits that can enhance the learning experience. Studies have found that single bouts of physical activity result in improved attention ( Hillman et al., 2003 , 2009 ; Pontifex et al., 2012 ), better working memory ( Pontifex et al., 2009 ), and increased academic learning time and reduced off-task behaviors ( Mahar et al., 2006 ; Bartholomew and Jowers, 2011 ). Yet single bouts of physical activity have differential effects, as very vigorous exercise has been associated with cognitive fatigue and even cognitive decline in adults ( Tomporowski, 2003 ). As seen in Figure 4-1 , high levels of effort, arousal, or activation can influence perception, decision making, response preparation, and actual response. For discussion of the underlying constructs and differential effects of single bouts of physical activity on cognitive performance, see Tomporowski (2003) .

Information processing: Diagram of a simplified version of Sanders's (1983) cognitive-energetic model of human information processing (adapted from Jones and Hardy, 1989). SOURCE: Tomporowski, 2003. Reprinted with permission.

For children, classrooms are busy places where they must distinguish relevant information from distractions that emerge from many different sources occurring simultaneously. A student must listen to the teacher, adhere to classroom procedures, focus on a specific task, hold and retain information, and make connections between novel information and previous experiences. Hillman and colleagues (2009) demonstrated that a single bout of moderate-intensity walking (60 percent of maximum heart rate) resulted in significant improvements in performance on a task requiring attentional inhibition (e.g., the ability to focus on a single task). These findings were accompanied by changes in neuroelectric measures underlying the allocation of attention (see Figure 4-2 ) and significant improvements on the reading subtest of the Wide Range Achievement Test. No such effects were observed following a similar duration of quiet rest. These findings were later replicated and extended to demonstrate benefits for both mathematics and reading performance in healthy children and those diagnosed with attention deficit hyperactivity disorder ( Pontifex et al., 2013 ). Further replications of these findings demonstrated that a single bout of moderate-intensity exercise using a treadmill improved performance on a task of attention and inhibition, but similar benefits were not derived from moderate-intensity exercise that involved exergaming ( O'Leary et al., 2011 ). It was also found that such benefits were derived following cessation of, but not during, the bout of exercise ( Drollette et al., 2012 ). The applications of such empirical findings within the school setting remain unclear.

Effects of a single session of exercise in preadolescent children. SOURCE: Hillman et al., 2009. Reprinted with permission.

A randomized controlled trial entitled Physical Activity Across the Curriculum (PAAC) used cluster randomization among 24 schools to examine the effects of physically active classroom lessons on BMI and academic achievement ( Donnelly et al., 2009 ). The academically oriented physical activities were intended to be of vigorous or moderate intensity (3–6 metabolic equivalents [METs]) and to last approximately 10 minutes and were specifically designed to supplement content in mathematics, language arts, geography, history, spelling, science, and health. The study followed 665 boys and 677 girls for 3 years as they rose from 2nd or 3rd to 4th or 5th grades. Changes in academic achievement, fitness, and blood screening were considered secondary outcomes. During a 3-year period, students who engaged in physically active lessons, on average, improved their academic achievement by 6 percent, while the control groups exhibited a 1 percent decrease. In students who experienced at least 75 minutes of PAAC lessons per week, BMI remained stable (see Figure 4-3 ).

Change in academic scores from baseline after physically active classroom lessons in elementary schools in northeast Kansas (2003–2006). NOTE: All differences between the Physical Activity Across the Curriculum (PAAC) group ( N = 117) and control (more...)

It is important to note that cognitive tasks completed before, during, and after physical activity show varying effects, but the effects were always positive compared with sedentary behavior. In a study carried out by Drollette and colleagues (2012) , 36 preadolescent children completed two cognitive tasks—a flanker task to assess attention and inhibition and a spatial nback task to assess working memory—before, during, and after seated rest and treadmill walking conditions. The children sat or walked on different days for an average of 19 minutes. The results suggest that the physical activity enhanced cognitive performance for the attention task but not for the task requiring working memory. Accordingly, although more research is needed, the authors suggest that the acute effects of exercise may be selective to certain cognitive processes (i.e., attentional inhibition) while unrelated to others (e.g., working memory). Indeed, data collected using a task-switching paradigm (i.e., a task designed to assess multitasking and requiring the scheduling of attention to multiple aspects of the environment) among 69 overweight and inactive children did not show differences in cognitive performance following acute bouts of treadmill walking or sitting ( Tomporowski et al., 2008b ). Thus, findings to date indicate a robust relationship of acute exercise to transient improvements in attention but appear inconsistent for other aspects of cognition.

Academic Learning Time and On- and Off-Task Behaviors

Excessive time on task, inattention to task, off-task behavior, and delinquency are important considerations in the learning environment given the importance of academic learning time to academic performance. These behaviors are observable and of concern to teachers as they detract from the learning environment. Systematic observation by trained observers may yield important insight regarding the effects of short physical activity breaks on these behaviors. Indeed, systematic observations of student behavior have been used as an alternative means of measuring academic performance ( Mahar et al., 2006 ; Grieco et al., 2009 ).

After the development of classroom-based physical activities, called Energizers, teachers were trained in how to implement such activities in their lessons at least twice per week ( Mahar et al., 2006 ). Measurements of baseline physical activity and on-task behaviors were collected in two 3rd-grade and two 4th-grade classes, using pedometers and direct observation. The intervention included 243 students, while 108 served as controls by not engaging in the activities. A subgroup of 62 3rd and 4th graders was observed for on-task behavior in the classroom following the physical activity. Children who participated in Energizers took more steps during the school day than those who did not; they also increased their on-task behaviors by more than 20 percent over baseline measures.

A systematic review of a similar in-class, academically oriented, physical activity plan—Take 10!—was conducted to identify the effects of its implementation after it had been in use for 10 years ( Kibbe et al., 2011 ). The findings suggest that children who experienced Take 10! in the classroom engaged in moderate to vigorous physical activity (6.16 to 6.42 METs) and had lower BMIs than those who did not. Further, children in the Take 10! classrooms had better fluid intelligence ( Reed et al., 2010 ) and higher academic achievement scores ( Donnelly et al., 2009 ).

Some have expressed concern that introducing physical activity into the classroom setting may be distracting to students. Yet in one study it was sedentary students who demonstrated a decrease in time on task, while active students returned to the same level of on-task behavior after an active learning task ( Grieco et al., 2009 ). Among the 97 3rd-grade students in this study, a small but nonsignificant increase in on-task behaviors was seen immediately following these active lessons. Additionally, these improvements were not mediated by BMI.

In sum, although presently understudied, physically active lessons may increase time on task and attention to task in the classroom setting. Given the complexity of the typical classroom, the strategy of including content-specific lessons that incorporate physical activity may be justified.

It is recommended that every child have 20 minutes of recess each day and that this time be outdoors whenever possible, in a safe activity ( NASPE, 2006 ). Consistent engagement in recess can help students refine social skills, learn social mediation skills surrounding fair play, obtain additional minutes of vigorous- or moderate-intensity physical activity that contribute toward the recommend 60 minutes or more per day, and have an opportunity to express their imagination through free play ( Pellegrini and Bohn, 2005 ; see also Chapter 6 ). When children participate in recess before lunch, additional benefits accrue, such as less food waste, increased incidence of appropriate behavior in the cafeteria during lunch, and greater student readiness to learn upon returning to the classroom after lunch ( Getlinger et al., 1996 ; Wechsler et al., 2001 ).

To examine the effects of engagement in physical activity during recess on classroom behavior, Barros and colleagues (2009) examined data from the Early Childhood Longitudinal Study on 10,000 8- to 9-year-old children. Teachers provided the number of minutes of recess as well as a ranking of classroom behavior (ranging from “misbehaves frequently” to “behaves exceptionally well”). Results indicate that children who had at least 15 minutes of recess were more likely to exhibit appropriate behavior in the classroom ( Barros et al., 2009 ). In another study, 43 4th-grade students were randomly assigned to 1 or no days of recess to examine the effects on classroom behavior ( Jarrett et al., 1998 ). The researchers concluded that on-task behavior was better among the children who had recess. A moderate effect size (= 0.51) was observed. In a series of studies examining kindergartners' attention to task following a 20-minute recess, increased time on task was observed during learning centers and story reading ( Pellegrini et al., 1995 ). Despite these positive findings centered on improved attention, it is important to note that few of these studies actually measured the intensity of the physical activity during recess.

From a slightly different perspective, survey data from 547 Virginia elementary school principals suggest that time dedicated to student participation in physical education, art, and music did not negatively influence academic performance ( Wilkins et al., 2003 ). Thus, the strategy of reducing time spent in physical education to increase academic performance may not have the desired effect. The evidence on in-school physical activity supports the provision of physical activity breaks during the school day as a way to increase fluid intelligence, time on task, and attention. However, it remains unclear what portion of these effects can be attributed to a break from academic time and what portion is a direct result of the specific demands/characteristics of the physical activity.

THE DEVELOPING bRAIN, PHYSICAL ACTIVITY, AND BRAIN HEALTH

The study of brain health has grown beyond simply measuring behavioral outcomes such as task performance and reaction time (e.g., cognitive processing speed). New technology has emerged that has allowed scientists to understand the impact of lifestyle factors on the brain from the body systems level down to the molecular level. A greater understanding of the cognitive components that subserve academic performance and may be amenable to intervention has thereby been gained. Research conducted in both laboratory and field settings has helped define this line of inquiry and identify some preliminary underlying mechanisms.

The Evidence Base on the Relationship of Physical Activity to Brain Health and Cognition in Older Adults

Despite the current focus on the relationship of physical activity to cognitive development, the evidence base is larger on the association of physical activity with brain health and cognition during aging. Much can be learned about how physical activity affects childhood cognition and scholastic achievement through this work. Despite earlier investigations into the relationship of physical activity to cognitive aging (see Etnier et al., 1997 , for a review), the field was shaped by the findings of Kramer and colleagues (1999) , who examined the effects of aerobic fitness training on older adults using a randomized controlled design. Specifically, 124 older adults aged 60 and 75 were randomly assigned to a 6-month intervention of either walking (i.e., aerobic training) or flexibility (i.e., nonaerobic) training. The walking group but not the flexibility group showed improved cognitive performance, measured as a shorter response time to the presented stimulus. Results from a series of tasks that tapped different aspects of cognitive control indicated that engagement in physical activity is a beneficial means of combating cognitive aging ( Kramer et al., 1999 ).

Cognitive control, or executive control, is involved in the selection, scheduling, and coordination of computational processes underlying perception, memory, and goal-directed action. These processes allow for the optimization of behavioral interactions within the environment through flexible modulation of the ability to control attention ( MacDonald et al., 2000 ; Botvinick et al., 2001 ). Core cognitive processes that make up cognitive control or executive control include inhibition, working memory, and cognitive flexibility ( Diamond, 2006 ), processes mediated by networks that involve the prefrontal cortex. Inhibition (or inhibitory control) refers to the ability to override a strong internal or external pull so as to act appropriately within the demands imposed by the environment ( Davidson et al., 2006 ). For example, one exerts inhibitory control when one stops speaking when the teacher begins lecturing. Working memory refers to the ability to represent information mentally, manipulate stored information, and act on the information ( Davidson et al., 2006 ). In solving a difficult mathematical problem, for example, one must often remember the remainder. Finally, cognitive flexibility refers to the ability to switch perspectives, focus attention, and adapt behavior quickly and flexibly for the purposes of goal-directed action ( Blair et al., 2005 ; Davidson et al., 2006 ; Diamond, 2006 ). For example, one must shift attention from the teacher who is teaching a lesson to one's notes to write down information for later study.

Based on their earlier findings on changes in cognitive control induced by aerobic training, Colcombe and Kramer (2003) conducted a meta-analysis to examine the relationship between aerobic training and cognition in older adults aged 55-80 using data from 18 randomized controlled exercise interventions. Their findings suggest that aerobic training is associated with general cognitive benefits that are selectively and disproportionately greater for tasks or task components requiring greater amounts of cognitive control. A second and more recent meta-analysis ( Smith et al., 2010 ) corroborates the findings of Colcombe and Kramer, indicating that aerobic exercise is related to attention, processing speed, memory, and cognitive control; however, it should be noted that smaller effect sizes were observed, likely a result of the studies included in the respective meta-analyses. In older adults, then, aerobic training selectively improves cognition.

Hillman and colleagues (2006) examined the relationship between physical activity and inhibition (one aspect of cognitive control) using a computer-based stimulus-response protocol in 241 individuals aged 15-71. Their results indicate that greater amounts of physical activity are related to decreased response speed across task conditions requiring variable amounts of inhibition, suggesting a generalized relationship between physical activity and response speed. In addition, the authors found physical activity to be related to better accuracy across conditions in older adults, while no such relationship was observed for younger adults. Of interest, this relationship was disproportionately larger for the condition requiring greater amounts of inhibition in the older adults, suggesting that physical activity has both a general and selective association with task performance ( Hillman et al., 2006 ).

With advances in neuroimaging techniques, understanding of the effects of physical activity and aerobic fitness on brain structure and function has advanced rapidly over the past decade. In particular, a series of studies ( Colcombe et al., 2003 , 2004 , 2006 ; Kramer and Erickson, 2007 ; Hillman et al., 2008 ) of older individuals has been conducted to elucidate the relation of aerobic fitness to the brain and cognition. Normal aging results in the loss of brain tissue ( Colcombe et al., 2003 ), with markedly larger loss evidenced in the frontal, temporal, and parietal regions ( Raz, 2000 ). Thus cognitive functions subserved by these brain regions (such as those involved in cognitive control and aspects of memory) are expected to decay more dramatically than other aspects of cognition.

Colcombe and colleagues (2003) investigated the relationship of aerobic fitness to gray and white matter tissue loss using magnetic resonance imaging (MRI) in 55 healthy older adults aged 55-79. They observed robust age-related decreases in tissue density in the frontal, temporal, and parietal regions using voxel-based morphometry, a technique used to assess brain volume. Reductions in the amount of tissue loss in these regions were observed as a function of fitness. Given that the brain structures most affected by aging also demonstrated the greatest fitness-related sparing, these initial findings provide a biological basis for fitness-related benefits to brain health during aging.

In a second study, Colcombe and colleagues (2006) examined the effects of aerobic fitness training on brain structure using a randomized controlled design with 59 sedentary healthy adults aged 60-79. The treatment group received a 6-month aerobic exercise (i.e., walking) intervention, while the control group received a stretching and toning intervention that did not include aerobic exercise. Results indicated that gray and white matter brain volume increased for those who received the aerobic fitness training intervention. No such results were observed for those assigned to the stretching and toning group. Specifically, those assigned to the aerobic training intervention demonstrated increased gray matter in the frontal lobes, including the dorsal anterior cingulate cortex, the supplementary motor area, the middle frontal gyrus, the dorsolateral region of the right inferior frontal gyrus, and the left superior temporal lobe. White matter volume changes also were evidenced following the aerobic fitness intervention, with increases in white matter tracts being observed within the anterior third of the corpus callosum. These brain regions are important for cognition, as they have been implicated in the cognitive control of attention and memory processes. These findings suggest that aerobic training not only spares age-related loss of brain structures but also may in fact enhance the structural health of specific brain regions.

In addition to the structural changes noted above, research has investigated the relationship between aerobic fitness and changes in brain function. That is, aerobic fitness training has also been observed to induce changes in patterns of functional activation. Functional MRI (fMRI) measures, which make it possible to image activity in the brain while an individual is performing a cognitive task, have revealed that aerobic training induces changes in patterns of functional activation. This approach involves inferring changes in neuronal activity from alteration in blood flow or metabolic activity in the brain. In a seminal paper, Colcombe and colleagues (2004) examined the relationship of aerobic fitness to brain function and cognition across two studies with older adults. In the first study, 41 older adult participants (mean age ~66) were divided into higher- and lower-fit groups based on their performance on a maximal exercise test. In the second study, 29 participants (aged 58-77) were recruited and randomly assigned to either a fitness training (i.e., walking) or control (i.e., stretching and toning) intervention. In both studies, participants were given a task requiring variable amounts of attention and inhibition. Results indicated that fitness (study 1) and fitness training (study 2) were related to greater activation in the middle frontal gyrus and superior parietal cortex; these regions of the brain are involved in attentional control and inhibitory functioning, processes entailed in the regulation of attention and action. These changes in neural activation were related to significant improvements in performance on the cognitive control task of attention and inhibition.

Taken together, the findings across studies suggest that an increase in aerobic fitness, derived from physical activity, is related to improvements in the integrity of brain structure and function and may underlie improvements in cognition across tasks requiring cognitive control. Although developmental differences exist, the general paradigm of this research can be applied to early stages of the life span, and some early attempts to do so have been made, as described below. Given the focus of this chapter on childhood cognition, it should be noted that this section has provided only a brief and arguably narrow look at the research on physical activity and cognitive aging. Considerable work has detailed the relationship of physical activity to other aspects of adult cognition using behavioral and neuroimaging tools (e.g., Boecker, 2011 ). The interested reader is referred to a number of review papers and meta-analyses describing the relationship of physical activity to various aspects of cognitive and brain health ( Etnier et al., 1997 ; Colcombe and Kramer, 2003 ; Tomporowski, 2003 ; Thomas et al., 2012 ).

Child Development, Brain Structure, and Function

Certain aspects of development have been linked with experience, indicating an intricate interplay between genetic programming and environmental influences. Gray matter, and the organization of synaptic connections in particular, appears to be at least partially dependent on experience (NRC/IOM, 2000; Taylor, 2006 ), with the brain exhibiting a remarkable ability to reorganize itself in response to input from sensory systems, other cortical systems, or insult ( Huttenlocher and Dabholkar, 1997 ). During typical development, experience shapes the pruning process through the strengthening of neural networks that support relevant thoughts and actions and the elimination of unnecessary or redundant connections. Accordingly, the brain responds to experience in an adaptive or “plastic” manner, resulting in the efficient and effective adoption of thoughts, skills, and actions relevant to one's interactions within one's environmental surroundings. Examples of neural plasticity in response to unique environmental interaction have been demonstrated in human neuroimaging studies of participation in music ( Elbert et al., 1995 ; Chan et al., 1998 ; Münte et al., 2001 ) and sports ( Hatfield and Hillman, 2001 ; Aglioti et al., 2008 ), thus supporting the educational practice of providing music education and opportunities for physical activity to children.

Effects of Regular Engagement in Physical Activity and Physical Fitness on Brain Structure

Recent advances in neuroimaging techniques have rapidly advanced understanding of the role physical activity and aerobic fitness may have in brain structure. In children a growing body of correlational research suggests differential brain structure related to aerobic fitness. Chaddock and colleagues (2010a , b ) showed a relationship among aerobic fitness, brain volume, and aspects of cognition and memory. Specifically, Chaddock and colleagues (2010a) assigned 9- to 10-year-old preadolescent children to lower- and higher-fitness groups as a function of their scores on a maximal oxygen uptake (VO 2 max) test, which is considered the gold-standard measure of aerobic fitness. They observed larger bilateral hippocampal volume in higher-fit children using MRI, as well as better performance on a task of relational memory. It is important to note that relational memory has been shown to be mediated by the hippocampus ( Cohen and Eichenbaum, 1993 ; Cohen et al., 1999 ). Further, no differences emerged for a task condition requiring item memory, which is supported by structures outside the hippocampus, suggesting selectivity among the aspects of memory that benefit from higher amounts of fitness. Lastly, hippocampal volume was positively related to performance on the relational memory task but not the item memory task, and bilateral hippocampal volume was observed to mediate the relationship between fitness and relational memory ( Chaddock et al., 2010a ). Such findings are consistent with behavioral measures of relational memory in children ( Chaddock et al., 2011 ) and neuroimaging findings in older adults ( Erickson et al., 2009 , 2011 ) and support the robust nonhuman animal literature demonstrating the effects of exercise on cell proliferation ( Van Praag et al., 1999 ) and survival ( Neeper et al., 1995 ) in the hippocampus.

In a second investigation ( Chaddock et al., 2010b ), higher- and lower-fit children (aged 9-10) underwent an MRI to determine whether structural differences might be found that relate to performance on a cognitive control task that taps attention and inhibition. The authors observed differential findings in the basal ganglia, a subcortical structure involved in the interplay of cognition and willed action. Specifically, higher-fit children exhibited greater volume in the dorsal striatum (i.e., caudate nucleus, putamen, globus pallidus) relative to lower-fit children, while no differences were observed in the ventral striatum. Such findings are not surprising given the role of the dorsal striatum in cognitive control and response resolution ( Casey et al., 2008 ; Aron et al., 2009 ), as well as the growing body of research in children and adults indicating that higher levels of fitness are associated with better control of attention, memory, and cognition ( Colcombe and Kramer, 2003 ; Hillman et al., 2008 ; Chang and Etnier, 2009 ). Chaddock and colleagues (2010b) further observed that higher-fit children exhibited increased inhibitory control and response resolution and that higher basal ganglia volume was related to better task performance. These findings indicate that the dorsal striatum is involved in these aspects of higher-order cognition and that fitness may influence cognitive control during preadolescent development. It should be noted that both studies described above were correlational in nature, leaving open the possibility that other factors related to fitness and/or the maturation of subcortical structures may account for the observed group differences.

Effects of Regular Engagement in Physical Activity and Physical Fitness on Brain Function

Other research has attempted to characterize fitness-related differences in brain function using fMRI and event-related brain potentials (ERPs), which are neuroelectric indices of functional brain activation in the electro-encephalographic time series. To date, few randomized controlled interventions have been conducted. Notably, Davis and colleagues (2011) conducted one such intervention lasting approximately 14 weeks that randomized 20 sedentary overweight preadolescent children into an after-school physical activity intervention or a nonactivity control group. The fMRI data collected during an antisaccade task, which requires inhibitory control, indicated increased bilateral activation of the prefrontal cortex and decreased bilateral activation of the posterior parietal cortex following the physical activity intervention relative to the control group. Such findings illustrate some of the neural substrates influenced by participation in physical activity. Two additional correlational studies ( Voss et al., 2011 ; Chaddock et al., 2012 ) compared higher- and lower-fit preadolescent children and found differential brain activation and superior task performance as a function of fitness. That is, Chaddock and colleagues (2012) observed increased activation in prefrontal and parietal brain regions during early task blocks and decreased activation during later task blocks in higher-fit relative to lower-fit children. Given that higher-fit children outperformed lower-fit children on the aspects of the task requiring the greatest amount of cognitive control, the authors reason that the higher-fit children were more capable of adapting neural activity to meet the demands imposed by tasks that tapped higher-order cognitive processes such as inhibition and goal maintenance. Voss and colleagues (2011) used a similar task to vary cognitive control requirements and found that higher-fit children outperformed their lower-fit counterparts and that such differences became more pronounced during task conditions requiring the upregulation of control. Further, several differences emerged across various brain regions that together make up the network associated with cognitive control. Collectively, these differences suggest that higher-fit children are more efficient in the allocation of resources in support of cognitive control operations.

Other imaging research has examined the neuroelectric system (i.e., ERPs) to investigate which cognitive processes occurring between stimulus engagement and response execution are influenced by fitness. Several studies ( Hillman et al., 2005 , 2009 ; Pontifex et al., 2011 ) have examined the P3 component of the stimulus-locked ERP and demonstrated that higher-fit children have larger-amplitude and shorter-latency ERPs relative to their lower-fit peers. Classical theory suggests that P3 relates to neuronal activity associated with revision of the mental representation of the previous event within the stimulus environment ( Donchin, 1981 ). P3 amplitude reflects the allocation of attentional resources when working memory is updated ( Donchin and Coles, 1988 ) such that P3 is sensitive to the amount of attentional resources allocated to a stimulus ( Polich, 1997 ; Polich and Heine, 2007 ). P3 latency generally is considered to represent stimulus evaluation and classification speed ( Kutas et al., 1977 ; Duncan-Johnson, 1981 ) and thus may be considered a measure of stimulus detection and evaluation time ( Magliero et al., 1984 ; Ila and Polich, 1999 ). Therefore the above findings suggest that higher-fit children allocate greater attentional resources and have faster cognitive processing speed relative to lower-fit children ( Hillman et al., 2005 , 2009 ), with additional research suggesting that higher-fit children also exhibit greater flexibility in the allocation of attentional resources, as indexed by greater modulation of P3 amplitude across tasks that vary in the amount of cognitive control required ( Pontifex et al., 2011 ). Given that higher-fit children also demonstrate better performance on cognitive control tasks, the P3 component appears to reflect the effectiveness of a subset of cognitive systems that support willed action ( Hillman et al., 2009 ; Pontifex et al., 2011 ).

Two ERP studies ( Hillman et al., 2009 ; Pontifex et al., 2011 ) have focused on aspects of cognition involved in action monitoring. That is, the error-related negativity (ERN) component was investigated in higher- and lower-fit children to determine whether differences in evaluation and regulation of cognitive control operations were influenced by fitness level. The ERN component is observed in response-locked ERP averages. It is often elicited by errors of commission during task performance and is believed to represent either the detection of errors during task performance ( Gehring et al., 1993 ; Holroyd and Coles, 2002 ) or more generally the detection of response conflict ( Botvinick et al., 2001 ; Yeung et al., 2004 ), which may be engendered by errors in response production. Several studies have reported that higher-fit children exhibit smaller ERN amplitude during rapid-response tasks (i.e., instructions emphasizing speed of responding; Hillman et al., 2009 ) and more flexibility in the allocation of these resources during tasks entailing variable cognitive control demands, as evidenced by changes in ERN amplitude for higher-fit children and no modulation of ERN in lower-fit children ( Pontifex et al., 2011 ). Collectively, this pattern of results suggests that children with lower levels of fitness allocate fewer attentional resources during stimulus engagement (P3 amplitude) and exhibit slower cognitive processing speed (P3 latency) but increased activation of neural resources involved in the monitoring of their actions (ERN amplitude). Alternatively, higher-fit children allocate greater resources to environmental stimuli and demonstrate less reliance on action monitoring (increasing resource allocation only to meet the demands of the task). Under more demanding task conditions, the strategy of lower-fit children appears to fail since they perform more poorly under conditions requiring the upregulation of cognitive control.

Finally, only one randomized controlled trial published to date has used ERPs to assess neurocognitive function in children. Kamijo and colleagues (2011) studied performance on a working memory task before and after a 9-month physical activity intervention compared with a wait-list control group. They observed better performance following the physical activity intervention during task conditions that required the upregulation of working memory relative to the task condition requiring lesser amounts of working memory. Further, increased activation of the contingent negative variation (CNV), an ERP component reflecting cognitive and motor preparation, was observed at posttest over frontal scalp sites in the physical activity intervention group. No differences in performance or brain activation were noted for the wait-list control group. These findings suggest an increase in cognitive preparation processes in support of a more effective working memory network resulting from prolonged participation in physical activity. For children in a school setting, regular participation in physical activity as part of an after-school program is particularly beneficial for tasks that require the use of working memory.

Adiposity and Risk for Metabolic Syndrome as It Relates to Cognitive Health

A related and emerging literature that has recently been popularized investigates the relationship of adiposity to cognitive and brain health and academic performance. Several reports ( Datar et al., 2004 ; Datar and Sturm, 2006 ; Judge and Jahns, 2007 ; Gable et al., 2012 ) on this relationship are based on large-scale datasets derived from the Early Child Longitudinal Study. Further, nonhuman animal research has been used to elucidate the relationships between health indices and cognitive and brain health (see Figure 4-4 for an overview of these relationships). Collectively, these studies observed poorer future academic performance among children who entered school overweight or moved from a healthy weight to overweight during the course of development. Corroborating evidence for a negative relationship between adiposity and academic performance may be found in smaller but more tightly controlled studies. As noted above, Castelli and colleagues (2007) observed poorer performance on the mathematics and reading portions of the Illinois Standardized Achievement Test in 3rd- and 5th-grade students as a function of higher BMI, and Donnelly and colleagues (2009) used a cluster randomized trial to demonstrate that physical activity in the classroom decreased BMI and improved academic achievement among pre-adolescent children.

Relationships between health indices and cognitive and brain health. NOTE: AD = Alzheimer's disease; PD = Parkinson's disease. SOURCE: Cotman et al., 2007. Reprinted with permission.

Recently published reports describe the relationship between adiposity and cognitive and brain health to advance understanding of the basic cognitive processes and neural substrates that may underlie the adiposity-achievement relationship. Bolstered by findings in adult populations (e.g., Debette et al., 2010 ; Raji et al., 2010 ; Carnell et al., 2011 ), researchers have begun to publish data on preadolescent populations indicating differences in brain function and cognitive performance related to adiposity (however, see Gunstad et al., 2008 , for an instance in which adiposity was unrelated to cognitive outcomes). Specifically, Kamijo and colleagues (2012a) examined the relationship of weight status to cognitive control and academic achievement in 126 children aged 7-9. The children completed a battery of cognitive control tasks, and their body composition was assessed using dual X-ray absorptiometry (DXA). The authors found that higher BMI and greater amounts of fat mass (particularly in the midsection) were related to poorer performance on cognitive control tasks involving inhibition, as well as lower academic achievement. In follow-up studies, Kamijo and colleagues (2012b) investigated whether neural markers of the relationship between adiposity and cognition may be found through examination of ERP data. These studies compared healthy-weight and obese children and found a differential distribution of the P3 potential (i.e., less frontally distributed) and larger N2 amplitude, as well as smaller ERN magnitude, in obese children during task conditions that required greater amounts of inhibitory control ( Kamijo et al., 2012c ). Taken together, the above results suggest that obesity is associated with less effective neural processes during stimulus capture and response execution. As a result, obese children perform tasks more slowly ( Kamijo et al., 2012a ) and are less accurate ( Kamijo et al., 2012b , c ) in response to tasks requiring variable amounts of cognitive control. Although these data are correlational, they provide a basis for further study using other neuroimaging tools (e.g., MRI, fMRI), as well as a rationale for the design and implementation of randomized controlled studies that would allow for causal interpretation of the relationship of adiposity to cognitive and brain health. The next decade should provide a great deal of information on this relationship.

LIMITATIONS

Despite the promising findings described in this chapter, it should be noted that the study of the relationship of childhood physical activity, aerobic fitness, and adiposity to cognitive and brain health and academic performance is in its early stages. Accordingly, most studies have used designs that afford correlation rather than causation. To date, in fact, only two randomized controlled trials ( Davis et al., 2011 ; Kamijo et al., 2011 ) on this relationship have been published. However, several others are currently ongoing, and it was necessary to provide evidence through correlational studies before investing the effort, time, and funding required for more demanding causal studies. Given that the evidence base in this area has grown exponentially in the past 10 years through correlational studies and that causal evidence has accumulated through adult and nonhuman animal studies, the next step will be to increase the amount of causal evidence available on school-age children.

Accomplishing this will require further consideration of demographic factors that may moderate the physical activity–cognition relationship. For instance, socioeconomic status has a unique relationship with physical activity ( Estabrooks et al., 2003 ) and cognitive control ( Mezzacappa, 2004 ). Although many studies have attempted to control for socioeconomic status (see Hillman et al., 2009 ; Kamijo et al., 2011 , 2012a , b , c ; Pontifex et al., 2011 ), further inquiry into its relationship with physical activity, adiposity, and cognition is warranted to determine whether it may serve as a potential mediator or moderator for the observed relationships. A second demographic factor that warrants further consideration is gender. Most authors have failed to describe gender differences when reporting on the physical activity–cognition literature. However, studies of adiposity and cognition have suggested that such a relationship may exist (see Datar and Sturm, 2006 ). Additionally, further consideration of age is warranted. Most studies have examined a relatively narrow age range, consisting of a few years. Such an approach often is necessary because of maturation and the need to develop comprehensive assessment tools that suit the various stages of development. However, this approach has yielded little understanding of how the physical activity–cognition relationship may change throughout the course of maturation.

Finally, although a number of studies have described the relationship of physical activity, fitness, and adiposity to standardized measures of academic performance, few attempts have been made to observe the relationship within the context of the educational environment. Standardized tests, although necessary to gauge knowledge, may not be the most sensitive measures for (the process of) learning. Future research will need to do a better job of translating promising laboratory findings to the real world to determine the value of this relationship in ecologically valid settings.

From an authentic and practical to a mechanistic perspective, physically active and aerobically fit children consistently outperform their inactive and unfit peers academically on both a short- and a long-term basis. Time spent engaged in physical activity is related not only to a healthier body but also to enriched cognitive development and lifelong brain health. Collectively, the findings across the body of literature in this area suggest that increases in aerobic fitness, derived from physical activity, are related to improvements in the integrity of brain structure and function that underlie academic performance. The strongest relationships have been found between aerobic fitness and performance in mathematics, reading, and English. For children in a school setting, regular participation in physical activity is particularly beneficial with respect to tasks that require working memory and problem solving. These findings are corroborated by the results of both authentic correlational studies and experimental randomized controlled trials. Overall, the benefits of additional time dedicated to physical education and other physical activity opportunities before, during, and after school outweigh the benefits of exclusive utilization of school time for academic learning, as physical activity opportunities offered across the curriculum do not inhibit academic performance.

Both habitual and single bouts of physical activity contribute to enhanced academic performance. Findings indicate a robust relationship of acute exercise to increased attention, with evidence emerging for a relationship between participation in physical activity and disciplinary behaviors, time on task, and academic performance. Specifically, higher-fit children allocate greater resources to a given task and demonstrate less reliance on environmental cues or teacher prompting.

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Cite this Page Committee on Physical Activity and Physical Education in the School Environment; Food and Nutrition Board; Institute of Medicine; Kohl HW III, Cook HD, editors. Educating the Student Body: Taking Physical Activity and Physical Education to School. Washington (DC): National Academies Press (US); 2013 Oct 30. 4, Physical Activity, Fitness, and Physical Education: Effects on Academic Performance.
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Topics for a Research Paper for Physical Education

Sara ipatenco, 27 jun 2018.

Many teachers training to become physical education teachers must write a final paper that focuses on specific topic within the physical education field to prove their competency. Students taking physical education classes or pursuing a degree in sports medicine and related fields also prove their competency through written assignments. Fortunately, there are numerous things these students can write about to complete their coursework and prepare for their first job after graduation.

Explore this article

Importance of Physical Education
Fitness and How It Applies to Children
Benefits of Certain Sports
Miscellaneous Topics

1 Importance of Physical Education

Under the umbrella of the importance of physical education, there are numerous potential paper topics. One topic is the lifelong importance of physical activity and how it can lower the risk of disease. This can be a particularly important topic for a student planning to teach elementary physical education. The paper can include research that suggests that the earlier students learn about health, the healthier they are later in life. Along the same lines, a student could write about current childhood obesity trends and how regular physical activity can reduce those rates and help combat the problem. The correlation between regular physical activity and classroom achievement or regular exercise and productivity are potential topics as well.

2 Fitness and How It Applies to Children

There's no arguing that children need regular exercise, and a paper topic could introduce an in-depth exploration of a specific benefit. For example, exercise can improve self-image, so a prospective PE teacher might write a paper about the correlation between exercise and self-esteem or the relationship between exercise and rates of depression. Regular exercise increases strength and encourages normal physical development, and a paper topic could explore the reasons why this is. An exploration of how physical education classes contribute to childhood social and emotional development is another potential topic.

3 Benefits of Certain Sports

A student studying to work within a certain sports field might write an in-depth paper about the history and benefits of a specific activity such as football, volleyball or lacrosse. For a student working towards a PE teaching degree, he might discuss how playing team sports influences physical, social and emotional development. A paper outlining the physical benefits of certain sports is another option. For example, a student might write a paper that proves the relationship between a strong lower body and playing soccer or the correlation between Pilates and a strong core. The benefits of hula-hooping is another creative paper topic.

4 Miscellaneous Topics

A student studying to be a PE teacher could write a paper that discusses the history of PE in the school system and how it's changed to be more effective or what needs to change to make it more effective. The ways that physical education improves problem-solving skills is another idea for a prospective PE teacher. An in-depth exploration of the President's Physical Fitness Challenge would be an interesting and valuable paper, too. For a student going into the sports medicine field, a paper about how physical activity and nutrition are related is a potential topic, as is the relationship between psychology and the attitudes of pro athletes.

1 Michigan Department of Education: Welcome to the Physical Education Web Page
2 Colorado Department of Education: 21st Century Skills and Readiness Competencies in Comprehensive Health and Physical Education

About the Author

Sara Ipatenco has taught writing, health and nutrition. She started writing in 2007 and has been published in Teaching Tolerance magazine. Ipatenco holds a bachelor's degree and a master's degree in education, both from the University of Denver.

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121 Temas para TCC de Educação Física

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Hoje neste escrito iremos deixar uma lista cheia de assuntos para Monografias e TCCs de Educação Física. A lista também compartilha sugestões e temas para outros tipos de trabalhos acadêmicos como resumo, fichamento, artigo científico, resenha e muitos outros.Desejo que faça ótimo uso dessa lista de temas para projetos acadêmicos de Educação Física.

A preferência do tema de Educação Física é a coisa mais significativa que o estudante necessita tomar para um bom desenvolvimento do Trabalho Acadêmico, o que acaba culminando em alguma agonia e problemas.

No meio das dezenas de opções de temas para Trabalho Acadêmico, uma boa escolha vai conceder que o aluno elabore seu TCC com melhor naturalidade e menos exaustão.

Primeiro, antes compartilharmos a lista de temas para o TCC e Monografia de Educação Física, pretendo indicar coisas para facilitar seu trabalho.

We recommend seeing our article on: Pedagogy Capstone and Theses Project Ideas .

Utilize Uma Empresa para Criar seu Trabalho Acadêmico de Educação Física

Você sabia que da para contratar alguém para criar por completo ou parcialmente seu TCC? Ou talvez pagar uma revisão, edição, pesquisa, dissertação ou tese para seu trabalho sobre Educação Física?

Você já ouviu falar na StudyBay Brasil? Refere-se a um site onde você pode combinar com professores para montar seus trabalhos acadêmicos de todo tipo como redação, artigo científico, TCC e Monografia de Educação Física ou outra formação. Você pode apagar todo sufoco de fazer um artigo científico ou trabalho acadêmico de Educação Física gastando pouco dinheiro e pouco tempo.

Using the Studybay platform, the student can create projects such as ABNT, Analysis, Power Point Presentation, Article (Academic / Scientific), Case Study, File, Portfolio, Content Production, ExamLabs , Project, Questions and Exercises, Theoretical framework, Review (Review ), Textual Revision, Doctoral Thesis, Academic Work, and several others. If you are interested you can also generate earnings by writing to the thousands who visit StudyBay's website daily, including its international sites.

Tudo o que você precisa é clicar no botão abaixo e fazer um orçamento avisando o tipo de trabalho que deseja pagar pra fazer. Eles também podem ajuda-lo na escolha de um tema. É igual um site de contratar freelancers, você recebe orçamentos de diferentes valores e está bem segurado pelo site StudyBay Brasil, uma organização no mundo todo e que aterrissou no Brasila pouco tempo para ajuda-lo no Monografia e TCC de Educação Física.

Temas para Trabalhos Acadêmicos, Monografia e TCC de Educação Física

Sugestões para Trabalhos Acadêmicos de Educação Física

Veja abaixo algumas dicas para elaboração de seu trabalho acadêmico de Educação Física, dicas maravilhosas para seu TCC ou Monografia:

Se você trabalha ou sabe com que quer trabalhar, vasculhe temas ligados à sua área de interesse. Você precisa ter alguma relação com o tema;
Veja também na fonte de pesquisa, certifique-se que exista fonte de referência suficiente para esse tema de TCC;
Consulte seu Educador – É muito importante que o Tutor orientador esteja de acordo com o tema;
Be careful not to write in the first person;
resoluto e escreva apenas o necessário, diminuindo advérbios e adjetivos;
Cuidado para não usar de forma repetida várias vezes as mesmas palavras, procure alternativas;
Avoid complicated words: the text must be simple;
Não omita informações importantes: Revele-as sempre que possível;

Lista de Temas e Ideias para Monografia e TCC de Educação Física

Veja abaixo algumas ideias para elaboração de trabalhos acadêmicos como TCC e Monografia de Educação Física:

552 Educação Física A IMPORTÂNCIA DO PROFISSIONAL DE EDUCAÇÃO FÍSICA NA ORIENTAÇÃO DE ATIVIDADES FÍSICAS CAMINHADA
A atividade física e o exercício como benefício na qualidade de vida de indivíduos portadores da doença de parkinson
A dança nas aulas de educação física no contexto escolar: desafios da prática pedagógica
A educação física e os temas transversais: contribuindo para a formação crítica e social dos alunos da educação infantil
A Educação Física na Reabilitação Para Portadores de AVC
A glutamina na atividade física
A importância da Educação Física Escolar na formação do indivíduo
A importância da prática da educação física, orientada por um profissional da área, no ensino fundamental i, para um desenvolvimento psicomotor, psicomotricista satisfatório
A importância do conhecimento do auto – salvamento e resgate aquático para sociedade
A importância do conhecimento em psicomotricidade para os educadores em suas diversas áreas de atuação
A importância do personal trainer no treino de musculação
A importância do profissional de educação física na orientação de atividades físicas caminhada
A importância do profissional de educação física no tratamento do indivíduo com diabetes tipo ii
A influência da Ginástica Laboral no Desempenho
A influência do judô no desenvolvimento da criança
A influência do professor de educação física na atividade física do aluno
A prática de montanhismo
A relevância da educação física para a inclusão de escolares com necessidades educacionais especiais: percalços e conquistas ao longo da história
A visão de professores e dirigentes sobre o papel do professor de educação física no ensino médio
A visão dos docentes da rede estadual de ensino fundamental do município de tobias barreto (se) sobre o papel da educação física no ensino fundamental ii
Afetividade como conteúdo das aulas de educação física
Alongamento pré e pós-treino
Alterações na composição corporal com a prática regular de hidroginástica
Análise de programas de treinamento de hipertrofia
Análise subjetiva dos professores de educação física sobre a inclusão de alunos com deficiência no ambiente escolar
Arbitragem de futebol de campo
As Dificuldades Enfrentadas Pelo Prof. De Ed. Física Da Rede Estadual Que Se Orientam Pelos Pcn
Atividade física durante a gestação
Atividade Física E Gestação: Uma Abordagem Bibliográfica
Atividade física e hérnia de disco
Atividade física e síndrome metabólica
Atletismo escolar
Aulas de educação física no ensino fundamental
Aulas de educação física no ensino médio
Benefícios da atividade física na vida do idoso
Benefícios do Muay Thai para crianças
Benefícios do treinamento de força para Idosos
Capacidade funcional para atividades da vida diária: a importância do profissional de educação física para o idoso
Capoeira angola
Concepção de saúde e níveis de dor em comissários (as) de bordo
Cultura corporal
Currículo de educação física: desafio e possibilidades
Dança de rua
Desenhos animados: a percepção das práticas corporais de lutas em crianças de 08 a 10 anos
Desenvolvimento de funções motoras na infância
Desvalorização do profissional de educação física nas escolas
Diabéticos e a prática de exercícios físicos
Diminuição Dos Índices De Pa Em Gerontes Submetidos A Prática Orientada De Caminhada
Educação física
Educação física adaptada para deficientes visuais
Educação física e capoeira: cultura popular e indústria cultural no jogo de roda
Educação física e crianças com autismo
Educação Física e reabilitação da Doença de Parkinson
Educação física escolar – sentido educativo das práticas corporais no ensino fundamental 1º e 2º ci
Educação física escolar: a utilização de materiais alternativos e recursos não convencionais
Educação física inclusiva
Educação física na vida de crianças obesas
Efeitos do exercício físico na construção da imagem corporal de adolescentes deficientes visuais dos sexos masculino e feminino
Efeitos dos exercícios físicos na vida dos idosos
Ensino de capoeira nas escolas
Ensino de surfe
Ensino do handebol na escola
Ensino-aprendizagem do futsal
Envolvimento lúdico: um mediador no processo da aprendizagem em natação infantil
Equilíbrio Motor
Esporte e saúde
Estudo sobre a relação da educação física escolar no processo de formação do cidadão em crianças do 3º ao 5º ano do ensino fundamental no município de nova friburgo
Estudo sobre as aptidões físicas força e resistência de idosos praticantes de hidroginástica e musculação em nova friburgo
Evasão nas aulas de educação física do ensino médio: quais os objetivos
Exercícios físicos e Osteoporose
Exercícios físicos na vida de idosos com demência
Exercícios físicos na vida de pessoas com arritmia cardíaca
Formação de professores de Educação física no Brasil
Futebol feminino
Ginástica artística
Ginástica laboral
Hidroginástica
Imagem corporal e culto ao corpo: cenas apresentadas por adolescentes praticantes de atividade física
Inclusão de deficientes físicos na educação física
Influência da educação física na problemática da violência escolar
Infraestrutura e materiais didáticos: impactos na qualidade de ensino nas aulas de educação física
Lesões na prática de futebol de campo
Método Pilates
Musculação em idosos
Musculação feminina
Musculação para idosos
O caminho da suavidade” e seus benefícios: uma luta esporte ou conteúdo educacional?
O Círculo Da Integração: Uma Experiência De Danças Com Idoso
O CÍRCULO DA INTEGRAÇÃO: UMA EXPERIÊNCIA DE DANÇAS COM IDOSOS
O ensino de vôlei nas escolas
O futebol como componente da cultura brasileira
O impacto das ações do projeto social “primeiro passe” do município de seara-sc nas aulas de educação física escolar
O kung fu como ferramenta no desenvolvimento social em adolescentes
Os benefícios da hidroginástica
Os benefícios da hidroginástica na terceira idade
Os benefícios da natação
Os benefícios da natação na terceira idade
Os benefícios pedagógicos que o esporte pode trazer como mais uma alternativa na socialização e formação de adolescentes e jovens
Os significados atribuídos pelos alunos do ensino médio em relação às aulas de educação física
Perfil de lesões em atletas praticantes de crossfit: revisão sistemática
Projeto “marabá paralímpico”: o atletismo adaptado da iniciação ao alto rendimento
Qualidade de vida
Qualidade de vida: benefícios do treinamento de força para idosos
Qualidade De Vida: Benefícios Do Treinamento De Força Para Idosos
Recuperação pós-cirúrgica
Sistemas Energéticos No Futebol De Campo
Skate nas aulas de educação física escolar
Tênis de mesa nas escolas
Transtornos alimentares na vida de atletas
Treinamento Com Pesos Na Melhoria Da Qualidade De Vida
Treinamento de força
Treinamento de força e obesidade
Treinamento de força para idoso
Treinamento desportivo
Treinamento funcional
Uso de espaços externos nas aulas de educação física
Utilização de suplementos por praticantes de musculação
Vida em movimento vivo: o caminho que conduz à luz

Regras de Estrutura para TCC de Educação Física

A estrutura do TCC de Educação Física deve seguir os seguintes parâmetros:

Capa do TCC de Educação Física(Obrigatório)
Lombada do TCC de Educação Física(Opcional)
Folha de Rosto do trabalho (Obrigatório)
Project Errata (Optional)
Approval Sheet (Required)
Dedicatória do tema (Optativo)
Agradecimentos do assunto (Optativo)
Work title (Optional)
Abstract in the vernacular language of the Research Paper (Required)
Foreign Language Summary (Required)
Lista de Ilustrações da monografia (Facultativo)
Lista de Tabelas do TCC (Optativo)
List of Abbreviations and Acronyms (Optional)
List of job symbols (optional)
Project summary (Required)
Introduction (Required)
Desenvolvimento do TCC (Exigido)
Completion (Required)
Referências do tema (Exigido)
Glossary (Optional)
Appendix (s) (Optional)

Metodologia do ensino de educação física

151+ Research Topics For Physiotherapy Students [Updated]

Welcome to the world of physiotherapy, where movement is medicine, and every step leads to healing. In the area of physiotherapy education, research is a powerful tool. It helps us understand the human body better, discover new techniques for rehabilitation, and improve the quality of life for countless individuals. Today, we dive into the diverse and fascinating world of research topics for physiotherapy students.

Whether you’re a student, a curious reader, or someone passionate about health and well-being, this journey promises to be enlightening.

What is Physiotherapy Research?

Table of Contents

Physiotherapy research is the investigation and exploration of various aspects of physical therapy. It delves into the effectiveness of different treatments, the impact of exercises on specific conditions, and the development of innovative techniques to enhance rehabilitation. This research isn’t just about lab coats and test tubes; it’s about real people, real struggles, and real triumphs.

Why Research Matters in Physiotherapy Education

Research isn’t just an academic exercise—it’s the heartbeat of progress in physiotherapy. For students, engaging in research opens doors to understanding the science behind the practice. It fosters critical thinking, hones problem-solving skills, and prepares future physiotherapists to deliver evidence-based care.

Most importantly, research enhances the quality of care patients receive, ensuring they benefit from the latest advancements in the field.

How Do I Choose A Research Topic For Physiotherapy Students?

Choosing a research topic for physiotherapy students involves several considerations to ensure it aligns with your interests, the field’s needs, and feasibility. Here’s a step-by-step guide:

Identify Your Interests
Passion: Choose a topic that genuinely interests you. Your enthusiasm will drive your motivation throughout the research process.
Personal Experience: Reflect on any personal experiences or observations in physiotherapy that sparked your curiosity.
Consider Relevance
Field Needs: Look into current trends and gaps in physiotherapy research. What areas need more exploration or improvement?
Clinical Significance: Choose a topic with practical applications in clinical settings. Will your research contribute to better patient outcomes or practice?
Review Literature
Literature Search: Conduct a thorough literature review to understand what’s been done. Identify gaps where your research can make a valuable contribution.
Read Journals: Explore recent publications in physiotherapy journals to get ideas and understand the latest advancements.
Discuss with Peers and Mentors
Peer Feedback: Discuss potential topics with classmates or colleagues. They might offer insights or suggest areas you hadn’t considered.
Mentor Guidance: Seek advice from professors or experienced researchers. They can guide you towards viable topics and methodologies.
Assess Feasibility
Resources: Consider the resources available to you, such as access to equipment, databases, and funding.
Timeframe: Evaluate the time you have for research. Ensure your topic is manageable within the given timeframe.
Narrow Down and Define
Specificity: Narrow your topic to a specific question or problem. Broad topics can be overwhelming and challenging to research effectively.
Clear Objective: Define a clear research question or hypothesis. This guides your study’s direction and methods.
Brainstorm Potential Topics
Use the Outline: Refer to the outline provided earlier for inspiration. Consider topics in musculoskeletal, neurological, pediatric, geriatric, or cardiovascular physiotherapy.
Innovative Approaches: Explore the use of technology, patient compliance, psychological aspects, or sports-related research.
Evaluate Ethical Considerations
Ethical Approval: Ensure your chosen topic aligns with ethical guidelines. Consider factors like informed consent, patient privacy, and data handling.
Choose Your Topic!
Final Selection: After considering all these factors, select a topic that excites you, addresses a gap in the field, and is feasible within your resources and timeframe.

Remember, choosing a research topic is an exciting journey. Embrace the opportunity to contribute to the field of physiotherapy, improve patient care, and expand your knowledge and skills.

151+ Research Topics For Physiotherapy Students: Category Wise

Musculoskeletal physiotherapy.

Effectiveness of Kinesio Taping in Ankle Sprains
Comparison of Manual Therapy and Exercise for Low Back Pain
The Role of Pilates in Improving Core Strength and Stability
Efficacy of Dry Needling in Myofascial Pain Syndrome
Impact of Virtual Reality on Rehabilitation After ACL Reconstruction
Muscle Imbalance and its Relationship to Injury Risk
Use of Blood Flow Restriction Training in Muscle Rehabilitation
Effectiveness of Cupping Therapy for Musculoskeletal Pain
Effects of Different Running Techniques on Knee Joint Stress
Long-Term Effects of High-Intensity Interval Training on Muscle Function

Neurological Physiotherapy

Rehabilitation Strategies for Improving Balance in Multiple Sclerosis
Impact of Aquatic Therapy on Motor Function in Parkinson’s Disease
Effectiveness of Constraint-Induced Movement Therapy in Stroke Recovery
Virtual Reality for Upper Limb Rehabilitation in Stroke Patients
Gait Training Techniques for Individuals with Cerebral Palsy
Neuroplasticity and its Implications for Rehabilitation
Role of Robotics in Neurological Rehabilitation
Effects of Tai Chi on Balance and Fall Prevention in Older Adults with Stroke
Music Therapy for Motor Rehabilitation in Stroke Survivors
Vestibular Rehabilitation in Patients with Vestibular Disorders

Cardiovascular and Pulmonary Physiotherapy

Cardiac Rehabilitation Programs: Effectiveness and Adherence Rates
Inspiratory Muscle Training for COPD Patients
Role of Yoga in Improving Cardiovascular Health
Exercise Prescription for Patients with Heart Failure
Effects of High-Altitude Training on Lung Function
Pulmonary Rehabilitation in Patients with Chronic Respiratory Diseases
Non-Invasive Ventilation in Neuromuscular Disorders
Effects of Smoking Cessation on Respiratory Function
Impact of Breathing Exercises on Asthma Control
Exercise Interventions for Pulmonary Hypertension

Pediatric Physiotherapy

Early Intervention Programs for Children with Developmental Delays
Hydrotherapy for Pediatric Rehabilitation
Motor Learning Strategies in Children with Autism Spectrum Disorder
Constraint-Induced Movement Therapy in Pediatric Hemiplegia
Sensory Integration Therapy for Children with Sensory Processing Disorder
Effects of Biking on Gross Motor Skills in Children
Role of Play-Based Therapy in Pediatric Rehabilitation
Pediatric Obesity and its Impact on Musculoskeletal Health
Effects of Early Mobility in Preterm Infants
Dance Therapy for Children with Cerebral Palsy

Geriatric Physiotherapy

Falls Risk Assessment and Prevention Strategies in Older Adults
Effectiveness of Chair Yoga in Elderly Fall Prevention
Role of Physical Activity in Cognitive Function in the Elderly
Home-Based Exercise Programs for Aging Adults
Effects of Tai Chi on Balance and Mobility in Elderly
Impact of Nutritional Interventions on Sarcopenia
Role of Multidisciplinary Teams in Geriatric Rehabilitation
Frailty Screening Tools and Interventions
Effects of Ageism on Physical Activity in Older Adults
Dementia and Exercise: Benefits and Challenges

Sports Physiotherapy

Prevalence and Risk Factors of Sports Injuries in Soccer Players
Effectiveness of Taping Techniques in Athletes
Return to Play Guidelines Following ACL Reconstruction
Role of Biomechanics in Running Injury Prevention
Sports-Specific Rehabilitation Protocols
Impact of Sports Specialization on Injury Risk in Youth Athletes
Effects of Cryotherapy on Muscle Recovery
Psychological Factors in Sports Injury Rehabilitation
Nutritional Strategies for Performance Enhancement in Athletes
Role of Physiotherapy in eSports Injury Prevention

Women’s Health and Pelvic Physiotherapy

Pelvic Floor Muscle Training for Stress Urinary Incontinence
Effects of Pregnancy on Musculoskeletal Health
Postpartum Exercise Programs and Recovery
Role of Physiotherapy in Pelvic Organ Prolapse Management
Chronic Pelvic Pain Management Strategies
Diastasis Recti: Assessment and Rehabilitation
Impact of Menopause on Bone Health and Exercise
Role of Physiotherapy in Breast Cancer Rehabilitation
Pre- and Post-Operative Physiotherapy for Gynecological Surgeries
Pelvic Girdle Pain in Pregnancy: Assessment and Treatment

Orthopedic Physiotherapy

Manual Therapy Techniques for Frozen Shoulder
Effects of TENS Therapy on Osteoarthritis Pain
Post-Operative Rehabilitation Following Total Knee Replacement
Role of Physiotherapy in Rotator Cuff Tears
Conservative Management of Lumbar Disc Herniation
Motor Control Exercises for Patellofemoral Pain Syndrome
Effects of PNF Techniques on Range of Motion
Role of Physiotherapy in Ankle Instability
Prehabilitation Programs for Anterior Cruciate Ligament Tears
Postural Correction Strategies for Neck Pain

Occupational Physiotherapy

Ergonomics and Workplace Injury Prevention
Role of Physiotherapy in Work Rehabilitation Programs
Return to Work Interventions for Musculoskeletal Injuries
Job Demands Analysis and Physical Capacity Assessments
Effects of Standing Desks on Musculoskeletal Health
Role of Physiotherapy in Hand Rehabilitation
Post-Operative Rehabilitation Following Hand Surgery
Workplace Stress and its Impact on Musculoskeletal Health
Functional Capacity Evaluations in Occupational Settings
Role of Physiotherapy in Ergonomic Design Consultations

Pain Management

Multimodal Approaches to Chronic Pain Management
Effects of Mindfulness-Based Stress Reduction on Pain Perception
Role of Physiotherapy in Fibromyalgia Management
Cognitive Behavioral Therapy for Chronic Pain
Pain Neuroscience Education for Patients with Persistent Pain
Effects of Acupuncture on Chronic Low Back Pain
Role of Physiotherapy in Complex Regional Pain Syndrome
Telehealth for Pain Management
Pain Catastrophizing and its Influence on Treatment Outcomes
Effects of Sleep Quality on Pain Perception

Rehabilitation Technology

Wearable Technology for Monitoring Physical Activity
Virtual Reality for Motor Rehabilitation
Robotics in Rehabilitation: Current Trends and Future Directions
Smart Textiles for Monitoring Muscle Activity
Tele rehabilitation: Benefits and Challenges
3D Printing in Orthopedic Rehabilitation
Biofeedback Systems for Muscle Rehabilitation
Wearable Sensors for Gait Analysis
Virtual Reality for Phantom Limb Pain
Brain-Computer Interfaces in Stroke Rehabilitation

Health Promotion and Wellness

Effects of Exercise on Mental Health and Wellbeing
Role of Physiotherapy in Obesity Management
Exercise Programs for Older Adults in Assisted Living Facilities
Workplace Wellness Programs: Impact on Employee Health
Community-Based Exercise Programs for Cardiovascular Health
Effects of Mindfulness Meditation on Stress Reduction
Role of Physiotherapy in Smoking Cessation Programs
Nutritional Counseling for Chronic Disease Prevention
Exercise Prescription for Mental Health Disorders
Impact of Social Support on Physical Activity Adherence

Rehabilitation in Specific Populations

Effects of Exercise on Bone Density in Postmenopausal Women
Role of Physiotherapy in Refugee Rehabilitation
Rehabilitation Needs of LGBTQ+ Individuals
Cultural Competence in Physiotherapy Practice
Effects of Exercise on Immune Function in Cancer Patients
Role of Physiotherapy in Prison Rehabilitation Programs
Rehabilitation Challenges in Homeless Populations
Effects of Exercise on Quality of Life in HIV/AIDS Patients
Role of Physiotherapy in Rehabilitation After Human Trafficking
Exercise Programs for Individuals with Disabilities

Innovative Approaches in Rehabilitation

Biofeedback Training for Improving Motor Control
Effects of Exergaming on Physical Function in Older Adults
Role of Photobiomodulation Therapy in Tissue Healing
Virtual Reality for Pain Management in Burn Patients
Mindfulness-Based Interventions for Chronic Fatigue Syndrome
Role of AI and Machine Learning in Rehabilitation
Effects of Hippotherapy on Balance and Coordination
Role of Music Therapy in Rehabilitation
Hydrogen Water Therapy for Musculoskeletal Injuries
Role of Graded Motor Imagery in Chronic Pain Rehabilitation

Ethics and Professionalism in Physiotherapy

Informed Consent Practices in Physiotherapy Research
Confidentiality in Telehealth Consultations
Role of Physiotherapists in Health Advocacy
Ethical Considerations in Exercise Prescription
Cultural Competence in Patient Care
Role of Physiotherapists in End-of-Life Care
Patient Autonomy and Shared Decision-Making in Treatment
Professional Boundaries in Physiotherapy Practice
Ethical Implications of Social Media Use for Physiotherapists
Conflict of Interest in Physiotherapy Research

Global Health and Physiotherapy

Role of Physiotherapists in Disaster Relief Efforts
Health Disparities in Access to Physiotherapy Services
Physiotherapy in Low-Resource Settings: Challenges and Solutions
Cross-Cultural Communication in Physiotherapy Practice
Role of Physiotherapists in Addressing Climate Change Health Impacts

Ethical Considerations in Physiotherapy Research

Informed Consent: Ensuring patients fully understand the research and voluntarily agree to participate.
Confidentiality of Patient Information: Safeguarding patient privacy and protecting their personal data.
Data Collection and Storage: Using secure methods to collect, store, and analyze research data.
Research Ethics Committee Approval: Obtaining ethical approval before conducting any research involving human participants.

Research in physiotherapy is a dynamic and essential part of the field. For students embarking on their research journeys, the possibilities are limitless.

From improving rehabilitation techniques to enhancing patient care, each study contributes to a brighter, healthier future.

So whether you’re intrigued by the mysteries of the musculoskeletal system or fascinated by the potential of technology in therapy, there are research topics for physiotherapy students waiting for you to explore. Together, let’s continue pushing the boundaries of knowledge and empowering individuals to move, heal, and thrive.

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Physical Review Physics Education Research

Collections
Editorial Team

NEW ARTICLE

Who and what gets recognized in peer recognition.

Meagan Sundstrom et al. Phys. Rev. Phys. Educ. Res. 20 , 010127 (2024)

There is a difference in the nature of the gender bias in student nominations of strong physics peers between lecture- and lab-based courses.

Substance-based and sequential reasoning about current: An example from a bulb-ranking task using a resources theoretical lens

Lauren C. Bauman, Trà Huỳnh, and Amy D. Robertson Phys. Rev. Phys. Educ. Res. 20 , 010124 (2024)

Physics students can use substance-based reasoning about current in simple circuits in ways that can provide a productive starting place for instruction on circuits.

Validation of two test anxiety scales for physics undergraduate courses through confirmatory factor analysis and Rasch analysis

Agostino Cioffi, Silvia Galano, Raffaella Passeggia, and Italo Testa Phys. Rev. Phys. Educ. Res. 20 , 010126 (2024)

This article presents two versions of a validated scale to measure physics test anxiety.

Motivation and needs of informal physics practitioners

Shams El-Adawy, Alexandra C. Lau, Eleanor C. Sayre, and Claudia Fracchiolla Phys. Rev. Phys. Educ. Res. 20 , 010125 (2024)

The motivations and professional development needs of physicists who engage with the public, capturing the findings that can used as the basis for meaningful support of practitioners of informal physics.

Editorial: Discontinuation of short papers in PRPER

January 16, 2024.

Short papers in Physical Review Physics Education Research (PRPER) were originally intended for articles that either extended a previous work (by the authors or someone else) or were initial results from a larger effort that were interesting enough to merit this type of publication.

Editorial: Call for Papers for Focused Collection of Physical Review Physics Education Research : AI Tools in Physics Teaching and PER

December 14, 2023.

Artificial intelligence (AI) has increasingly found its way into more and more areas of our lives, including education. This focused collection aims to address opportunities, challenges, and issues around the use of a broad variety of AI tools in physics education and physics education research.

Editorial: Call for Papers for Focused Collection of Physical Review Physics Education Research : Investigating and Improving Quantum Education through Research

December 4, 2023.

In the year 2025, we will be celebrating the 100th anniversary of the formulation and development of quantum theory. The United Nations is working toward a declaration of 2025 as the International Year of Quantum Science and Technology (IYQST). In the spring of 2025, Physical Review Physics Education Research (PRPER) will join the celebration by rolling out a special issue of the journal focused on investigating and improving quantum education.

ANNOUNCEMENT

Meet new prper associate editor eric brewe, june 30, 2023.

Dr. Eric Brewe is a Professor in Physics and Science Education at Drexel University. Much of his research into the teaching and learning of physics at the university level is focused on the Modeling Instruction method. Dr. Brewe publishes frequently in PRPER and has received significant external funding to support his research. He is an APS Fellow and has served as Chair of the APS Education Policy Committee and Chair of the APS Topical Group on Physics Education Research.

PRPER Associate Editor Paula Heron wins IUPAP 2021 ICPE Medal for PER research

APS congratulates Paula Heron, Associate Editor of PRPER and Professor of Physics at University of Washington, for winning the 2021 ICPE Medal for PER research. The full announcement from IUPAP is available online .

APS Announces Outstanding Referees for 2024

APS has selected 156 Outstanding Referees for 2024 who have demonstrated exceptional work in the assessment of manuscripts published in the Physical Review journals. A full list of the Outstanding Referees is available online .

NEWS AND COMMENTARY

Ableism puts neurodivergent students at a disadvantage, february 29, 2024.

While undergraduate physics students that identify as neurodivergent report little outright discrimination or violence, they do say that structural ableism has negatively impacted their time as students.

Feature on: Liam G. McDermott, Nazeer A. Mosley, and Geraldine L. Cochran Phys. Rev. Phys. Educ. Res. 20 , 010111 (2024)

SPECIAL COLLECTION

Examining racial diversity and identity in physical review physics education research, july 1, 2020.

In the following special collection from Physical Review Physics Education Research , authors examine and highlight racial diversity, specifically how Black physicists and people of color navigate within the physics community at large.

Editorial: Announcing the PRPER Statistical Modeling Review Committee (SMRC)

November 22, 2022.

Lead Editor, Charles Henderson, announces PRPER’s development of the Statistical Modeling Review Committee (SMRC) to help support high-quality statistical modeling techniques.

Editorial: Research on Advancing Equity Is Critical for Physics

April 11, 2022.

PRPER Lead Editor, Charles Henderson, and APS Editor in Chief, Michael Thoennessen, discuss the vital importance of offering an inclusive and welcoming environment to the physics community.

Editorial: Call for Papers Focused Collection of Physical Review Physics Education Research Instructional labs: Improving traditions and new directions

November 17, 2021.

Physics is an experimental science. Instructional laboratories where students conduct experiments, analyze data, arrive at conclusions, and communicate findings have been around for over a century. Every physics department has labs of different levels: from introductory to advanced, for majors and nonmajors, with real equipment or virtual.

Editorial: Call for Papers Focused Collection of Physical Review Physics Education Research Qualitative Methods in PER: A Critical Examination

August 4, 2021.

Physics Education Research (PER) uses various research methods classified under qualitative, quantitative, and mixed methods. These approaches help researchers understand physics education phenomena and advance our efforts to produce better PER. Over time, research questions and contexts have evolved, and so have our methods. We understand it has come the time for PER scholars to examine qualitative methods in our field critically. Therefore, we urge you to contribute to the Focused Collection on Qualitative Methods in PER.

Special Collection on Curriculum Development: Theory into Design

This Physical Review Physics Education Research (PRPER) Focused Collection was curated to bring to light curriculum design decisions and the factors that shape them. By making decisions about design explicit, we can better understand the contexts behind our research claims, hold curricula up to informed critique, and support new scholars as they undertake curriculum development.

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About 1 in 5 U.S. teens who’ve heard of ChatGPT have used it for schoolwork

Roughly one-in-five teenagers who have heard of ChatGPT say they have used it to help them do their schoolwork, according to a new Pew Research Center survey of U.S. teens ages 13 to 17. With a majority of teens having heard of ChatGPT, that amounts to 13% of all U.S. teens who have used the generative artificial intelligence (AI) chatbot in their schoolwork.

A bar chart showing that, among teens who know of ChatGPT, 19% say they’ve used it for schoolwork.

Teens in higher grade levels are particularly likely to have used the chatbot to help them with schoolwork. About one-quarter of 11th and 12th graders who have heard of ChatGPT say they have done this. This share drops to 17% among 9th and 10th graders and 12% among 7th and 8th graders.

There is no significant difference between teen boys and girls who have used ChatGPT in this way.

The introduction of ChatGPT last year has led to much discussion about its role in schools , especially whether schools should integrate the new technology into the classroom or ban it .

Pew Research Center conducted this analysis to understand American teens’ use and understanding of ChatGPT in the school setting.

The Center conducted an online survey of 1,453 U.S. teens from Sept. 26 to Oct. 23, 2023, via Ipsos. Ipsos recruited the teens via their parents, who were part of its KnowledgePanel . The KnowledgePanel is a probability-based web panel recruited primarily through national, random sampling of residential addresses. The survey was weighted to be representative of U.S. teens ages 13 to 17 who live with their parents by age, gender, race and ethnicity, household income, and other categories.

This research was reviewed and approved by an external institutional review board (IRB), Advarra, an independent committee of experts specializing in helping to protect the rights of research participants.

Here are the questions used for this analysis , along with responses, and its methodology .

Teens’ awareness of ChatGPT

Overall, two-thirds of U.S. teens say they have heard of ChatGPT, including 23% who have heard a lot about it. But awareness varies by race and ethnicity, as well as by household income:

A horizontal stacked bar chart showing that most teens have heard of ChatGPT, but awareness varies by race and ethnicity, household income.

72% of White teens say they’ve heard at least a little about ChatGPT, compared with 63% of Hispanic teens and 56% of Black teens.
75% of teens living in households that make $75,000 or more annually have heard of ChatGPT. Much smaller shares in households with incomes between $30,000 and $74,999 (58%) and less than $30,000 (41%) say the same.

Teens who are more aware of ChatGPT are more likely to use it for schoolwork. Roughly a third of teens who have heard a lot about ChatGPT (36%) have used it for schoolwork, far higher than the 10% among those who have heard a little about it.

When do teens think it’s OK for students to use ChatGPT?

For teens, whether it is – or is not – acceptable for students to use ChatGPT depends on what it is being used for.

There is a fair amount of support for using the chatbot to explore a topic. Roughly seven-in-ten teens who have heard of ChatGPT say it’s acceptable to use when they are researching something new, while 13% say it is not acceptable.

A diverging bar chart showing that many teens say it’s acceptable to use ChatGPT for research; few say it’s OK to use it for writing essays.

However, there is much less support for using ChatGPT to do the work itself. Just one-in-five teens who have heard of ChatGPT say it’s acceptable to use it to write essays, while 57% say it is not acceptable. And 39% say it’s acceptable to use ChatGPT to solve math problems, while a similar share of teens (36%) say it’s not acceptable.

Some teens are uncertain about whether it’s acceptable to use ChatGPT for these tasks. Between 18% and 24% say they aren’t sure whether these are acceptable use cases for ChatGPT.

Those who have heard a lot about ChatGPT are more likely than those who have only heard a little about it to say it’s acceptable to use the chatbot to research topics, solve math problems and write essays. For instance, 54% of teens who have heard a lot about ChatGPT say it’s acceptable to use it to solve math problems, compared with 32% among those who have heard a little about it.

Note: Here are the questions used for this analysis , along with responses, and its methodology .

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Olivia Sidoti is a research assistant focusing on internet and technology research at Pew Research Center

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100 Physical Education Research Paper Topics. Exploring the diverse facets of physical education through research papers offers a unique opportunity to delve deeper into the field and contribute to the growing body of knowledge. To assist you in this endeavor, we have compiled a comprehensive list of physical education research paper topics.
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Research Aim: The present study aims to investigate the impacts of improving physical education in schools for developing children's confidence, endurance, and quick integration capability. Objectives: To analyse the importance of physical education in schools for proper growth of children. To examine how advanced physical education in schools helps children to develop their confidence ...
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Physical Education and Its Benefits. Schools in particular know the benefits of physical education in a student's life and should be able to fight for the children's rights. We will write. a custom essay specifically for you by our professional experts. 809 writers online.
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Introduction (Required) Desenvolvimento do TCC (Exigido) Completion (Required) Post-Textual Elements. Referências do tema (Exigido) Glossary (Optional) Appendix (s) (Optional) ️ Today in this writing we will leave a full list of subjects for Physical Education Research Papers. The list also shares suggestions and Topics for.
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Use of ChatGPT for schoolwork among US teens
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