Sports Biomechanics Courses Online

Biomechanics refers to the interactions between a body and its environment while performing a specific activity. This science is applied in various specialized fields such as automotive, sports biomechanics and many more. If you want to learn about sports biomechanics courses online or get a detailed info on the topic then continue reading here on infolearners!

You want to know more about online biomechanics degree, or you’re looking for sports biomechanics courses uk, and you want to learn more about the topic. Maybe you need a clear overview of the topic. If so, we can help! We’re going to provide detailed info about the topic, and we’ll break it down for you.

The course covers aspects of sports coaching, sports rehabilitation and analyses fitness through exercise and research which is conducted in our physiology labs.It emphasises the vital role of physical activity in the prevention and treatment of chronic disease and explores human anatomy, biomechanics, exercise physiology and psychology which contribute to maintaining and improving health. 

You will work alongside experts at our £21 million SportsDock complex at our Docklands campus, which houses a specialist strength and conditioning facility, physiology laboratories and new lecture theatres. You would expect no less from a university that’s located so close to the Queen Elizabeth Olympic Park.

HOW YOU’LL LEARN

This course offers the expertise and top-class facilities that will make all the difference to those wishing to make a living doing a job they love. 

Everything you need for learning about the practical side of applied sport and exercise science will be there for you in our SportsDock building at our Docklands campus. It’s not just a matter of the facilities, which are second to none, but the personnel too.

You will be able to witness at first-hand how top coaches work with a range of athletes, including some of UEL’s 90-plus sports scholars who are part of one of the fastest growing university sports environments.

Those coaches will be of the calibre of Clarence Callender, who won Olympic silver with the British men’s 4x100m squad in 1988, and Giles Greenwood, a Commonwealth gold medallist and British record holder in weightlifting.

We also have key links with professionals at football clubs, including Leyton Orient FC (official partners of UEL) and West Ham United FC, as well as at UK Athletics and Essex County Cricket Club.

The practical side of your study will be balanced by in-depth theoretical teaching within a School that has been internationally recognised for the quality of its research.

Sports Biomechanics Courses Online

WHAT YOU’LL LEARN

With this modular course, we aim to produce postgraduate students with a sound knowledge of both the theoretical and practical aspects of applied sport and exercise science.

We will also equip you with the necessary skills to undertake individual and collaborative research. 

All students take two specialist subject modules, one optional module and a core module in research skills. And to complete the master’s course (180 credits), you will undertake an individual research project.

Throughout your studies you will gain sound scientific knowledge and develop your practical skills and experience.

We will give you a detailed understanding of the scientific factors influencing strength, speed, power and agility and an evidence-based application of knowledge for differing athletes and sports.

You will also learn to evaluate field and laboratory data, including statistical analysis, with a view to enhancing performance.

Project work is an essential and enjoyable component of this master’s degree course, and small projects and group work exercises feature throughout.

Strength and conditioning is an area of activity which became popular in the United States during the late 1960s. In the last ten years, it has grown in importance in countries all over the world, including the UK.

Your balance of practical and theoretical learning at one of the leading university sports environments in the country will leave you ideally placed to benefit from this particular growth area.

This course equips you with all the sought-after qualifications and skills regularly advertised for by organisations such as the English Institute of Sport in their search for in strength and conditioning specialists.

Graduating with an MSc will offer you a range of career pathways. You might go on to complete the UK Strength and Conditioning Association accreditation. You might seek the National Strength and Conditioning Association’s qualification as a Certified Strength and Conditioning Specialist.

To be an excellent strength and conditioning coach requires a wide knowledge across several domains and a number of different skill sets. These include:
-An extensive “toolbox” of training exercise and interventions
-An understanding of movement and the ability to teach movement
-An understanding of how the body adapts to training and how to organise training to maximise desirable adaptations
-An ability to coach
-The ability to understand various sources of evidence (including scientific evidence) and use it to inform your practice

The MSc in Strength and Conditioning has been designed with these demands in mind, and aims to support students in developing as excellent strength and conditioning coaches.

The Best Biomechanics Course Online

  1. physics of life 2: Biomechanics

We’ve ranked this course at #1 because of the concise content and the instructor Scott Turner’s simple and clear style of teaching.

It is perfect for college-level biology students who want to gain a better understanding of how life works in the physical world. The course is also ideal for medical students interested in delving into sport medicine. Though the course does cover only the basics of biomechanics, it will provide you with a solid foundation to the subject

Scott Turner, the creator of this course is a Professor of Biology, a trained physiologist, and a published author. His course “deals with the mechanics of life”, covering topics such as the basic principles of mechanics and the material properties enabling living things to move and support themselves.

Former students who have taken this course appreciated the simplicity of Turner’s delivery, the interesting and easily understandable content, and the practical application of the examples provided in each lecture.

The course requires a high school level knowledge of physics and introductory college-level biology.

Features of the course:

  • Six hours of video footage divided into eight sections, with 39 lectures
  • 17 downloadable resources
  • Certificate of completion
  • Access on mobile devices and television

What You’ll Learn:

  • The basic concepts of strain and stress and how these concepts can be applied to living structures
  • The importance of elastic energy storage in skeletal systems
  • How biological materials are built to resist failure
  • What skeletal systems are
  • Skeletons as machines
  • The physics of walking, running, and jumping

2. Introduction to Human Biomechanics – External Forces (Physioplus)

There are two types of biomechanics: internal and external. This course by Physioplus deals with the latter. We would recommend the course for biology and medical students interested in physiotherapy, along with nurses, athletic trainers, and occupational therapists.

The course is presented by Tolulope Adeniji, a physiotherapist and CEO of Ganador Healthcare Services in Nigeria. His specialty lies in geriatric physiotherapy. Adeniji has a geriatrics practice specializing in aging science, including motor and cognitive recovery, brain modulation for pain, and biomechanics related to aging.

Adeniji discusses the basics of human biomechanics that physiotherapists must understand to treat patients effectively.

Features of the course

  • 5 hour of video footage
  • Reading activity
  • A quiz
  • Course certificate

To obtain the completion certificate, you:

  1. Must watch the video provided at your convenience.
  2. Need to do some additional reading, including but not limited to Physiopedia pages and journal articles.
  3. Have to attempt quizzes.
  4. Participate in a discussion forum.
  5. Must pass a final quiz with a score of at least 80% or more.

What You’ll Learn:

  • The basics of human external biomechanics
  • How these biomechanics are applied to clinical physiotherapy practice

3. Biomechanics: Introductory Course for Beginners (Udemy)

This introductory course is perfect for high school seniors or biomedical engineering students.

Sara Anis ElDarwich and her husband Hamid ElDarwich teach this course. Sara has a Master’s degree in Biomedical engineering. She is also a researcher in the field of regenerative medicine and engineering. Hamid is a Ph.D. candidate in engineering at Princeton with a passion for mechanics and teaching theory.

While this course is relatively short, we’ve chosen to include it on this list because it provides students and other learners with the opportunity to learn the very basics of biomechanics and biomedical engineering quickly.

Features of the Course:

  • 36 minutes of video footage divided into 14 lectures
  • Full lifetime access
  • Certificate of completion
  • Access on mobile devices and television

What You’ll Learn:

  • Introduction to Biomechanics
  • Physics of the skeleton
  • What biomedical engineering is
  • How engineering concepts can be used in medicine

4. Rehabilitation of Running Biomechanics (Physioplus)

This course is perfect for anyone working in the physical health industry, from physiotherapists to athletic trainers and even injured athletes looking for ways to understand their bodies better. It is also an excellent option for medical students interested in sports medicine and biology students interested in the human body’s mechanics.

Ari Kaplan and Douglas Adams teach it. Kaplan has a doctorate in physical therapy from Delaware University, with specialties in biomechanics and running. Adams, too has a doctorate in physical therapy. He has a passion for sports medicine and running gait analysis.

Features of the Course:

  • 5 hour of video footage
  • Reading activity
  • A quiz
  • Course certificate

What You’ll Learn:

  • How to develop a plan of care for runners with injuries
  • How to understand training and injury history
  • How to identify mobility and motor control deficits concerning running

To obtain the completion certificate, you:

  1. Must watch the video provided at your convenience.
  2. Need to do some additional reading, including but not limited to Physiopedia pages and journal articles.
  3. Have to attempt quizzes.
  4. Participate in a discussion forum.
  5. Must pass a final quiz with a score of at least 80% or more.

This course on the rehabilitation of running biomechanics will provide you with a better understanding of how to develop a plan of care for runners to rehabilitate a running injury.

5.  Introduction to Orthodontic Biomechanics

We’ve included this course for more advanced learners, such as orthodontic specialists, dentistry, engineering, and biology students.

This introductory course is taught by Dr. Gustavo Gameiro, professor at the Federal University of Rio Grande do Sul, Brazil. He is the creator of the blog Essential Biomechanics, and holds two Ph.D. degrees in Physiology and Orthodontics.

Features of the Course:

  • 5 hours of video footage divided into 30 lectures
  • Certificate of completion
  • Four downloadable resources
  • Access on mobile devices and television

There are no prior requirements for this course, aside from an interest in orthodontic biomechanics.

What You’ll Learn:

  • The biological basis of tooth movement, its pharmacological and physiological modulations.
  • Elementary concepts of mechanics applied to orthodontics
  • Equilibrium and appliance systems
  • Biomechanical planning
  • Practical applications of orthodontic biomechanics

online biomechanics degree

High-tech Biomechanics Lab, Advanced Research Options

Gain superior training for a rapidly growing sector of the work force in UNC’s sport and exercise science master’s program with biomechanics emphasis. With small class sizes, highly involved faculty and state-of-the-art research labs, our biomechanics master’s program takes an applied approach that prepares you for a wide range of careers in exercise science and biomechanics.

Benefit from our small biomechanics program with attentive faculty and a high degree of personal guidance and mentoring. Our on-campus Gait Laboratory gives you hands-on access to current technology, where you can collaborate with senior researchers and conduct your own research in biomechanics and exercise science. You’ll work with diverse populations, ranging from elite athletes in our Division I sports programs to cancer patients at the ground-breaking UNC Cancer Rehabilitation Institute. Graduates of our biomechanics program have an outstanding rate of job placement and Ph.D. program admissions.

Degree Options

M.S. in Sports and Exercise Science: Biomechanics (thesis option)

The biomechanics master’s program at UNC totals 33 credit hours. Take courses in lab techniques, research, advanced biomechanics, neuromuscular structure and function and related subjects. The program includes an optional graduate-level internship in sport and exercise science. If you choose the thesis option, you’ll complete the program by developing a research question, designing an original experiment, gathering and analyzing data and writing your conclusions.

M.S. in Sports and Exercise Science: Biomechanics (professional research project option)

This option covers the same coursework and internship opportunities as the thesis option. However, as an alternative to a research thesis, you’ll complete additional coursework and obtain a national certification to meet your specific career goals and better position you for the job market.

Your Future in Biomechanics

The Biomechanics and Exercise Science fields are experiencing rapid growth. Employers in health care, equipment manufacturing, high-performance athletics and other industries have an increasing demand for professionals with graduate-level biomechanics training. Tailor your master’s education at UNC for a wide range of career paths in biomechanics, including research, shoe design, prosthetics design, athletic training and rehabilitation. If you choose to pursue a doctoral degree, UNC’s program provides you with an outstanding foundation for success at the Ph.D. level.

Consider a M.S. in Biomechanics if you want to:

  • Perform sophisticated research with cutting-edge biomechanics technology.
  • Learn applied skills that offer direct preparation for the work force.
  • Work with diverse populations.
  • Earn a versatile degree for a wide variety of career pursuits.

You’ll learn:

  • The skeletal, muscular and neurological foundations of exercise science and biomechanics.
  • How to gather and analyze biomechanical data.
  • Specialized applications for cancer rehabilitation, sports performance and other areas.

Sample courses:

  • Advanced Biomechanics
  • Laboratory Techniques in Biomechanics
  • Neuromuscular Structure and Function
  • Biomechanics of Locomotion

sports biomechanics courses uk

OVERVIEW

Our well-established Sport Biomechanics degree programme enables you to specialise in the physics of sport – the area of science concerned with the analysis of human movement.

Through the measurement and simulation of movement, the degree facilitates a greater understanding of human performance in sporting and recreational activities. This understanding can then be used to improve performance and reduce injury risk.

The programme contains cutting-edge content, ranging from experimental data collection, analysis techniques and equipment, through to the latest theoretical considerations and research problems.

Throughout the programme you will benefit from access to a large designated teaching laboratory and use key pieces of biomechanics equipment, including Vicon motion analysis systems, force plates, wireless electromyography (EMG), and isokinetic dynamometers. Additionally, you will use the programming language MATLAB for data processing and analysis, as well as software for computer simulation and inertia modelling.

The programme culminates in an original research project, allowing you to apply the knowledge and expertise you have gained from the taught modules to independently collect and analyse data to answer a research question.

WHY YOU SHOULD STUDY THIS DEGREE

  • We are 1st in the world for the fifth time running for sport-related subjects (QS World University Rankings by Subject 2017, 2018, 2019, 2020 and 2021).
  • You will undertake a comprehensive programme covering biomechanics research methods and analysis, utilising experimental techniques, underpinned by theory.
  • You will be taught by world-leading researchers in sport biomechanics.
  • You can take advantage of our state-of-the-art sport biomechanics teaching laboratory.
  • You can join the largest sport biomechanics and motor control research team in the UK.

WHAT YOU’LL STUDY

Our MSc Sport Biomechanics has been designed to develop your knowledge of the theoretical basis underpinning sports biomechanics analyses, while also providing you with all of the core data collection, processing and analysis techniques necessary to analyse and understand human motion.

  • Semester 1
  • Semester 2
  • Summer

Semester 1

Compulsory modules

Orthopaedic Sport Biomechanics

Orthopaedic Sport Biomechanics

The aim of this module is for students to develop knowledge and understanding of orthopaedic sport biomechanics ranging from the epidemiology and anatomy, to the common injuries, their diagnostic methods, treatment, rehabilitation, and evaluation and implementation of clinical outcomes and prevention.Core Biomechanics

Core Biomechanics

The aim of this module is for the student to apply classical mechanics to human motion and to develop the skills and understanding for 2D and 3D motion analysis to be able to collect, process, calculate, and interpret kinetic and kinematic data during dynamic sporting activities.Theories and Methods of Analysis in Biomechanics

Theories and Methods of Analysis in Biomechanics

The aim of this module is for students to develop their skills and understanding of processing and analysing biomechanical data to appropriately answer a research question.Neuromuscular Function

Neuromuscular Function

The aim of this module is to develop an understanding of neuromuscular function from the level of the muscle contractile filaments, through to whole-body human function, encompassing skeletal muscle and tendinous tissues, neural control of muscle contraction and joint mechanics, whilst also gaining practical skills assessing human neuromuscular function.

Semester 2

Compulsory modules

Developing Computer Models for Sports Biomechanics

Developing Computer Models for Sports Biomechanics

The aim of this module is for students to develop the knowledge and skills necessary to construct, evaluate, and optimise computer models of human movement.Quantitative Research

Quantitative Research

The aims of this module are for the student:

  • To gain a critical understanding and appreciation of statistical theory and its application in psychology, sport, exercise and health sciences.
  • To gain a working knowledge of common statistical procedures in psychology, sport, exercise and health sciences research.

Research Project: Natural Sciences in Sport and Exercise

Research Project: Natural Sciences in Sport and Exercise

The aim of this module is for students to design, conduct and report on an original research study of an aspect of their MSc programme.Core Biomechanics

Core Biomechanics

The aim of this module is for the student to apply classical mechanics to human motion and to develop the skills and understanding for 2D and 3D motion analysis to be able to collect, process, calculate, and interpret kinetic and kinematic data during dynamic sporting activities.Theories and Methods of Analysis in Biomechanics

Theories and Methods of Analysis in Biomechanics

The aim of this module is for students to develop their skills and understanding of processing and analysing biomechanical data to appropriately answer a research question.

Summer

Compulsory modules

Research Project: Natural Sciences in Sport and Exercise

Research Project: Natural Sciences in Sport and Exercise

The aim of this module is for students to design, conduct and report on an original research study of an aspect of their MSc programme.

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