exs2esb ex

EXERCISE AND SPORTS BIOMECHANICS

EXS2ESB

2016

Credit points: 15

Subject outline

This subject introduces you to the core elements of biomechanics. In this subject you will investigate the forces that act on the human body and the effects produced by these forces, to cause motion, in order to understand how the human body interacts with its environment. This subject will introduce you to the key principles underlying human movement, including mechanical descriptions of movement, the internal and external forces which cause movement, the energetics of movement and movement in a fluid medium. You will also discuss the implications of current research that has shaped our understanding of how biomechanical analysis can be used to optimise human performance.

SchoolLa Trobe Rural Health School

Credit points15

Subject Co-ordinatorKane Middleton

Available to Study Abroad StudentsYes

Subject year levelYear Level 2 - UG

Exchange StudentsYes

Subject particulars

Subject rules

Prerequisites Must pass HBS1HBB and must be enrolled in one of HBESB, HBES Bachelor of Exercise Science or HZESPB Bachelor of Exercise Science/Master of Exercise Physiology. All other students require Subject Coordinator's approval.

Co-requisitesN/A

Incompatible subjectsN/A

Equivalent subjectsN/A

Special conditionsN/A

Learning resources

Readings

Resource Type	Title	Resource Requirement	Author and Year	Publisher
Readings	Basic Biomechanics	Recommended	Hall, 2015	McGraw-Hill Education, New York, NY.
Readings	Instant Notes in Sport and Exercise Biomechanics	Recommended	Grimshaw & Lees & Fowler & Burden, 2007	Taylor and Francis Group, New York, NY.

Graduate capabilities & intended learning outcomes

01. Describe linear and angular kinematic concepts of human movement and correctly associate these quantities with their appropriate units (SI) of measurement.

Activities:: Lectures delivered on-line and face-to-face: linear kinematics concepts; angular kinematics concepts; uniformly accelerated motion; relationships between angular kinematic variables and linear kinematic variables; application of linear and angular kinematic principles to sport and exercise activities. Practical tasks and scenarios delivered on-line and face-to-face: 2-D video analysis of golf stroke, numerical differentiation to determine velocity and acceleration; computer simulation of projectile flight (shot put, javelin)
Related graduate capabilities and elements:: Discipline Specific Competencies(Discipline Specific Competencies); Creative Problem-solving(Creative Problem-solving); Teamwork(Teamwork)

02. Describe linear and angular kinetic concepts of human movement and correctly associate these quantities with their appropriate units (SI) of measurement.

Activities:: Lectures delivered on-line and face-to-face: Newton's Laws of Motion, friction, impulse and momentum, collisions, centripetal force; angular analogues of mass, force, momentum and impulse; angular analogues of Newton's Laws of Motion. Practical tasks and scenarios delivered on-line and face-to-face: force platform analysis of vertical jump; numerical integration of acceleration to determine velocity and displacement.
Related graduate capabilities and elements:: Discipline Specific Competencies(Discipline Specific Competencies); Creative Problem-solving(Creative Problem-solving); Teamwork(Teamwork)

03. Solve systems of forces within the human body.

Activities:: Lectures delivered on-line and face-to-face: torques and lever systems; static equilibrium; centre of gravity and centre of gravity determination in the human body; mechanical principles of stability; Practical tasks and scenarios delivered on-line and face-to-face: Determination of body centre of gravity.
Related graduate capabilities and elements:: Teamwork(Teamwork); Discipline Specific Competencies(Discipline Specific Competencies); Creative Problem-solving(Creative Problem-solving)

04. Describe mechanical energy and power concepts of human movement and correctly associate these quantities with their appropriate units (SI) of measurement.

Activities:: Lectures delivered on-line and face-to-face: define concepts of work, energy and power and describe the relationships between mechanical and metabolic energy expenditure. Practical tasks and scenarios delivered on-line and face-to-face: measure power output on a bicycle ergometer, during a stair climb and during a vertical jump.
Related graduate capabilities and elements:: Creative Problem-solving(Creative Problem-solving); Discipline Specific Competencies(Discipline Specific Competencies); Teamwork(Teamwork)

05. Describe principles of fluid dynamics as they apply to the human body in a fluid medium and to sports projectiles.

Activities:: Lectures delivered on-line and face-to-face: flow characteristics and fluid forces; buoyancy, drag, lift. Practical tasks and scenarios delivered on-line and face-to-face: computer simulation of projectile flight (shot put, javelin).
Related graduate capabilities and elements:: Teamwork(Teamwork); Discipline Specific Competencies(Discipline Specific Competencies); Creative Problem-solving(Creative Problem-solving)

06. Demonstrate an ability to use available instruments for measuring kinematic and kinetic quantities and to solve problems related to these biomechanical concepts.

Activities:: Practical tasks delivered on-line and face-to-face: activities as described in SILOs 1-5; working in a team, analyse a sport or exercise activity and prepare a quantitative report.
Related graduate capabilities and elements:: Creative Problem-solving(Creative Problem-solving); Teamwork(Teamwork); Discipline Specific Competencies(Discipline Specific Competencies)

07. Demonstrate the application of biomechanics principles to the optimisation of human performance.

Activities:: Lecture tasks delivered on-line and face-to-face: evaluation of experimental research relating to sport and exercise activities. Practical tasks: working in a team, analyse a sport or exercise activity and prepare a quantitative report.
Related graduate capabilities and elements:: Creative Problem-solving(Creative Problem-solving); Writing(Writing); Teamwork(Teamwork)

Subject options

Select to view your study options…

Bendigo, 2016, Semester 1, Day

Overview

Online enrolmentYes

Maximum enrolment size125

Enrolment information Limited staffing resources. Tables applying quota. Once quota reached, further enrolments will be subject to approval by Subject Coordinator.

Subject Instance Co-ordinatorMichael Kingsley

Class requirements

Laboratory ClassWeek: 10 - 22
One 2.0 hours laboratory class per week on weekdays during the day from week 10 to week 22 and delivered via face-to-face.
"number reflects size of lab and equipment - health and safety."

LectureWeek: 10 - 22
One 2.0 hours lecture per week on weekdays during the day from week 10 to week 22 and delivered via blended.

Assessments

Assessment element	Comments	%	ILO*
One 2-hour theory examination (equivalent to 2000 words).		50	01, 02, 03, 04, 05, 06, 07
One video submission and one quantitative report (equivalent to 1000 words).	Quantitative analysis of a sporting skill.	30	01, 06, 07
Four laboratory practical reports (5 marks each; 200 words each).	Group submissions.	20	01, 02, 03, 04, 05, 06

Melbourne, 2016, Semester 1, Day

Overview

Online enrolmentYes

Maximum enrolment sizeN/A

Enrolment information

Subject Instance Co-ordinatorKane Middleton

Class requirements

LectureWeek: 10 - 22
One 2.0 hours lecture per week on weekdays during the day from week 10 to week 22 and delivered via blended.

Assessments

Assessment element	Comments	%	ILO*
One 2-hour theory examination (equivalent to 2000 words).		50	01, 02, 03, 04, 05, 06, 07
One video submission and one quantitative report (equivalent to 1000 words).	Quantitative analysis of a sporting skill.	30	01, 06, 07
Four laboratory practical reports (5 marks each; 200 words each).	Group submissions.	20	01, 02, 03, 04, 05, 06