BIOS 3007 Applied Biomechanics of Sport and Exercise
Credit Points 10
Legacy Code 400889
Coordinator Peter Clothier Opens in new window
Description To fully understand the science underlying the optimisation of human movement, students require a comprehensive working knowledge of Biomechanics. This unit represents a theoretical and applied study of selected topics in Biomechanics. It builds on the basic principles of Biomechanics that are presented in the unit Introduction to Biomechanics and applies this knowledge to the analysis of sporting and human exercise performance. To achieve this, advanced methods and concepts in the biomechanical analysis of human performance are identified and explored.
School Health Sciences
Student Contribution Band HECS Band 2 10cp
Check your HECS Band contribution amount via the Fees page.
Level Undergraduate Level 3 subject
Pre-requisite(s) HLTH 2008
Equivalent Subjects BIOS 3006 - Applied Biomechanics of Exercise
Restrictions Students must be enrolled in program 4658 - Bachelor of Health Science (Sport and Exercise Science).
- Describe and apply biomechanical principles to assess movement in the context of health, exercise, sport and/or activities of daily living in a variety of populations.
- Articulate and synthesise factors governing efficient movement from a biomechanical perspective.
- Utilise biomechanical measurement techniques to assess human movement, human interactions with equipment and the environment, and devise intervention strategies where appropriate.
- Collect, process and present data common to biomechanical analyses using biomechanical equipment and software applications.
- Identify and explain biomechanical factors associated with injury and injury prevention.
- Describe and apply techniques to analyse gait using basic temporal, kinematic and kinetic measurement procedures.
- Illustrate and explain muscle mechanics concepts that affect muscle performance.
2. Dynamometry: Principles and applications of force measurement in biomechanics
3. Motion Analysis: Principles and applications in the use of video/motion analysis in biomechanics.
4. Muscle mechanics: Theory, assessment and application of muscle mechanics principles in sport and exercise.
5. Gait analysis: Theory and application of gait analysis techniques in biomechanics.
6. The application of biomechanical principles to selected sports and exercise movements.
7. Ergonomics: Theoretical and practical applications of the Biomechanical analysis of workstations.
8. Electromyography: the collection and use of EMG data in biomechanics.