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Contribute to optimal physical functioning in sports and health

Human Movement Sciences

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Human movement is a key issue for today’s society. Freedom of movement determines quality of life – from cell to organ and from organ to the entire body and from a person interacting with the environment. However, freedom of movement cannot always be taken for granted, as is the case in patients whose movements are limited due to diseases and/or conditions. But also among healthy individuals such as children, the elderly, athletes and working people, there is a need to optimise movement.

Human movement is essential to develop resilience and prevent diseases like diabetes and cardiovascular disease. On the other end, knowledge on human movement is essential to enhance athletic performance. On both ends of that spectrum, a high level of expertise is required to be effective in this field.

You specialise in one of four scientific domains:

  • Biomechanics in Sports, Exercise, and Health
  • Movement Neuroscience for Health and Rehabilitation
  • Physiology of Human Performance and Health
  • Psychology in Sports, Performance, and Health

You will follow three in-depth courses in that area. Alongside, all students follow a combination of courses, that builds your academic, research, self-development, and professional skills. This includes data literacy, career orientation, and the Community Service Learning project “Human Movement Sciences in Society”.

In the final months of the year, you will develop and conduct a full-time Master Research Project (MRP) of 20 weeks, supported by workshops and mentoring. This includes a Research in Societal Context course and a symposium where students present their findings to stakeholders.

The start date of this programme is September 1st.

VU Online Master's Event

Thursday 26 November 2026

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Which specialisation do you choose?

Find out what the different possibilities are within the master's programme Human Movement Sciences.

Summary

Ever wondered how the body moves — and what limits or enhances that movement? This specialisation reveals the mechanics behind human movement, using physics and simulations to understand how muscles, joints and external forces work together. You'll learn to analyse and improve movement, prevent injury, and design tools and interventions across sport, healthcare and rehabilitation.

Biomechanics in Sports, Exercise, and Health courses

Biomechanical Principles and Methods (6 EC)
Dive into the fundamentals of biomechanics, including inverse dynamics, static optimization, and data collection/processing. Learn how to apply advanced mathematical, mechanical, and programming (Python) skills to analyze and simulate human movement. This course addresses key questions about performance, injury, and assistive technologies, making it essential for understanding how the musculoskeletal system influences movement.

Applied Biomechanics (6 EC)
Apply biomechanical principles to real-world challenges in sports, rehabilitation, and health. This course focuses on practical applications, critical analysis of biomechanical data, and communication of results to both experts and non-experts. You’ll develop problem-solving and collaborative skills while working on real-life questions.

Design and Interpretation of Biomechanical Studies (6 EC)
Develop skills to critically interpret biomechanical data, design experiments, and communicate findings. Through literature-based assignments and discussions, you’ll address complex questions in sports, rehabilitation, and fundamental sciences. This course strengthens your ability to bridge the gap between research and practice.

Summary

How does the brain make the body move — and what happens when that system breaks down? This specialisation focuses on how the nervous system controls movement, for healthy individuals as well as individuals with complex neurological disorders. You'll study brain function, motor control and neurotechnology — gaining the skills to bridge neuroscience and practice in research, innovation and healthcare.

Movement Neuroscience for Health and Rehabilitation courses

Fundamentals of Movement Neuroscience (6 EC)
Explore the basic principles of movement neuroscience, including neural control of movement, sensory-motor integration, and the role of the central nervous system in human movement. This course provides a solid foundation for understanding how the nervous system governs movement in both healthy and clinical populations.

Neuroscience Methods (6 EC)
Master experimental methods in movement neuroscience, including electromyography, EEG/MEG, (f)MRI, and neurostimulation. You’ll learn the underlying theoretical principles of these techniques, how to analyze and interpret data, and how to choose appropriate methods for addressing research questions in clinical and scientific contexts.

Clinical Movement Neuroscience (6 EC)
Focus on the clinical applications of movement neuroscience, including the assessment and rehabilitation of neurological disorders. This course emphasizes the translation of neuroscience research into clinical practice, helping you understand and address movement impairments in patients.

Summary

What allows elite athletes to excel — and why do others struggle with basic physical tasks? This specialisation explores how the body produces and sustains movement, from muscle function and energy systems to the effects of training, ageing and disease. You'll apply this knowledge in both sports and clinical contexts, preparing for careers in exercise physiology, rehabilitation and performance research.

Physiology of Human Performance and Health courses

Integrative Neuromuscular Performance (6 EC)
Understand how muscle contractile properties and neuromuscular activation patterns interact to influence power production at the single-fibre, muscle, and whole-body levels. This course explores the dynamic interplay between contractile mechanics, neuromuscular activation, cellular bioenergetics, oxygen transport, and fatigue-related processes, providing a comprehensive view of human performance.

Adaptations in Training, Ageing, and Disuse (6 EC)
Translate physiological principles into practical solutions for diverse populations, such as elite athletes, patients, and individuals in extreme environments. Develop evidence-based exercise recommendations and learn to communicate complex physiological insights to non-scientific audiences, such as coaches, physiotherapists, and healthcare professionals.

Translational Exercise Physiology (6 EC)
Translate physiological principles into practical solutions for diverse populations, such as elite athletes, patients, and individuals in extreme environments. Develop evidence-based exercise recommendations and learn to communicate complex physiological insights to non-scientific audiences, such as coaches, physiotherapists, and healthcare professionals.

Summary

What drives people to perform under pressure, stay motivated, or recover from setbacks? In this specialisation, you’ll explore the psychological side of performance, learning and well-being across sports, health, physical education and high-stakes professions like policing or the military. You will apply theories on resilience, motor learning and mental health in real-world settings — and learn how psychology enhances motor performance, development and recovery.

Psychology in Sports, Performance, and Health courses

Sport, Performance, and Exercise Psychology (6 EC)
Explore psychological theories and interventions to optimize performance, motivation, and well-being in sports and exercise contexts. This course covers the mental aspects of athletic performance, helping you understand how psychological principles can enhance both individual and team success.

Skill Acquisition and Talent Development (6 EC)
Apply contemporary theories of skill acquisition and talent development to optimize learning in sport, physical education, and other domains. Address complex problems, interpret skill progression, and explore ethical considerations in talent development. This course prepares you to design effective learning environments for skill mastery.

Behavioural Research in Social Contexts (6 EC)
Learn to design and conduct behavioral research in real-world settings, such as physical education, sport, and mental health. Address the challenges of ecological validity and translate research outcomes into societal impact. This course emphasizes the importance of context in understanding human movement behavior.

Summary

Are you aiming for a career in higher education? If so, you have the option to extend your Master’s programme in the second year by enrolling in the 30EC teacher training programme in Human Movement Sciences. Please note that this additional track is offered in Dutch only, and a limited number of students are admitted each year. More information about the teacher training programme in Human Movement Sciences is available. 

  • Biomechanics in Sports, Exercise, and Health

    Summary

    Ever wondered how the body moves — and what limits or enhances that movement? This specialisation reveals the mechanics behind human movement, using physics and simulations to understand how muscles, joints and external forces work together. You'll learn to analyse and improve movement, prevent injury, and design tools and interventions across sport, healthcare and rehabilitation.

    Biomechanics in Sports, Exercise, and Health courses

    Biomechanical Principles and Methods (6 EC)
    Dive into the fundamentals of biomechanics, including inverse dynamics, static optimization, and data collection/processing. Learn how to apply advanced mathematical, mechanical, and programming (Python) skills to analyze and simulate human movement. This course addresses key questions about performance, injury, and assistive technologies, making it essential for understanding how the musculoskeletal system influences movement.

    Applied Biomechanics (6 EC)
    Apply biomechanical principles to real-world challenges in sports, rehabilitation, and health. This course focuses on practical applications, critical analysis of biomechanical data, and communication of results to both experts and non-experts. You’ll develop problem-solving and collaborative skills while working on real-life questions.

    Design and Interpretation of Biomechanical Studies (6 EC)
    Develop skills to critically interpret biomechanical data, design experiments, and communicate findings. Through literature-based assignments and discussions, you’ll address complex questions in sports, rehabilitation, and fundamental sciences. This course strengthens your ability to bridge the gap between research and practice.

  • Movement Neuroscience for Health and Rehabilitation

    Summary

    How does the brain make the body move — and what happens when that system breaks down? This specialisation focuses on how the nervous system controls movement, for healthy individuals as well as individuals with complex neurological disorders. You'll study brain function, motor control and neurotechnology — gaining the skills to bridge neuroscience and practice in research, innovation and healthcare.

    Movement Neuroscience for Health and Rehabilitation courses

    Fundamentals of Movement Neuroscience (6 EC)
    Explore the basic principles of movement neuroscience, including neural control of movement, sensory-motor integration, and the role of the central nervous system in human movement. This course provides a solid foundation for understanding how the nervous system governs movement in both healthy and clinical populations.

    Neuroscience Methods (6 EC)
    Master experimental methods in movement neuroscience, including electromyography, EEG/MEG, (f)MRI, and neurostimulation. You’ll learn the underlying theoretical principles of these techniques, how to analyze and interpret data, and how to choose appropriate methods for addressing research questions in clinical and scientific contexts.

    Clinical Movement Neuroscience (6 EC)
    Focus on the clinical applications of movement neuroscience, including the assessment and rehabilitation of neurological disorders. This course emphasizes the translation of neuroscience research into clinical practice, helping you understand and address movement impairments in patients.

  • Physiology of Human Performance and Health

    Summary

    What allows elite athletes to excel — and why do others struggle with basic physical tasks? This specialisation explores how the body produces and sustains movement, from muscle function and energy systems to the effects of training, ageing and disease. You'll apply this knowledge in both sports and clinical contexts, preparing for careers in exercise physiology, rehabilitation and performance research.

    Physiology of Human Performance and Health courses

    Integrative Neuromuscular Performance (6 EC)
    Understand how muscle contractile properties and neuromuscular activation patterns interact to influence power production at the single-fibre, muscle, and whole-body levels. This course explores the dynamic interplay between contractile mechanics, neuromuscular activation, cellular bioenergetics, oxygen transport, and fatigue-related processes, providing a comprehensive view of human performance.

    Adaptations in Training, Ageing, and Disuse (6 EC)
    Translate physiological principles into practical solutions for diverse populations, such as elite athletes, patients, and individuals in extreme environments. Develop evidence-based exercise recommendations and learn to communicate complex physiological insights to non-scientific audiences, such as coaches, physiotherapists, and healthcare professionals.

    Translational Exercise Physiology (6 EC)
    Translate physiological principles into practical solutions for diverse populations, such as elite athletes, patients, and individuals in extreme environments. Develop evidence-based exercise recommendations and learn to communicate complex physiological insights to non-scientific audiences, such as coaches, physiotherapists, and healthcare professionals.

  • Psychology in Sports, Performance, and Health

    Summary

    What drives people to perform under pressure, stay motivated, or recover from setbacks? In this specialisation, you’ll explore the psychological side of performance, learning and well-being across sports, health, physical education and high-stakes professions like policing or the military. You will apply theories on resilience, motor learning and mental health in real-world settings — and learn how psychology enhances motor performance, development and recovery.

    Psychology in Sports, Performance, and Health courses

    Sport, Performance, and Exercise Psychology (6 EC)
    Explore psychological theories and interventions to optimize performance, motivation, and well-being in sports and exercise contexts. This course covers the mental aspects of athletic performance, helping you understand how psychological principles can enhance both individual and team success.

    Skill Acquisition and Talent Development (6 EC)
    Apply contemporary theories of skill acquisition and talent development to optimize learning in sport, physical education, and other domains. Address complex problems, interpret skill progression, and explore ethical considerations in talent development. This course prepares you to design effective learning environments for skill mastery.

    Behavioural Research in Social Contexts (6 EC)
    Learn to design and conduct behavioral research in real-world settings, such as physical education, sport, and mental health. Address the challenges of ecological validity and translate research outcomes into societal impact. This course emphasizes the importance of context in understanding human movement behavior.

  • Teacher training programme (extended option in Dutch)

    Summary

    Are you aiming for a career in higher education? If so, you have the option to extend your Master’s programme in the second year by enrolling in the 30EC teacher training programme in Human Movement Sciences. Please note that this additional track is offered in Dutch only, and a limited number of students are admitted each year. More information about the teacher training programme in Human Movement Sciences is available. 

Structure of the programme

The Master's programme comprises 60 EC. The study load of each Master's course is 6 EC, whereas that of the research internship is 24 EC. The program is set up in a way that it is possible to further attune the programme to your individual interests. 

Change your future with the Human Movement Sciences programme

Change your future with the Human Movement Sciences programme

With this Master’s degree you will have various career opportunities, for instance in applied research at a rehabilitation center or sports institution, or in vocational education in sports or healthcare. As embedded scientists, exercise physiologists, or knowledge brokers our alumni share scientific knowledge with professionals in the applied fields. In addition, they contribute to the current developments in movement-related technological industry. 

Explore your future prospects

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