| Learning Outcomes |
PO |
MME |
| The students who succeeded in this course: |
|
|
| LO-1 |
To be able to explain the contribution of sports biomechanics to sportive efficiency. |
PO-2 Gains in-depth knowledge of exercise physiology and training science and can use this knowledge in practical applications.
|
Examination
|
| LO-2 |
To be able to compare kinetic and kinematic movement in sports. |
PO-2 Gains in-depth knowledge of exercise physiology and training science and can use this knowledge in practical applications.
|
Examination
|
| LO-3 |
To be able to solve and interpret problems related to linear and curvilinear kinematics in sports. |
PO-2 Gains in-depth knowledge of exercise physiology and training science and can use this knowledge in practical applications.
|
Examination
|
| LO-4 |
To be able to solve and interpret linear kinetic and angular kinetic problems in sports. |
PO-2 Gains in-depth knowledge of exercise physiology and training science and can use this knowledge in practical applications.
PO-11 Adopts multidisciplinary approaches in sports sciences and can collaborate with other disciplines.
PO-12 Can apply performance analysis and evaluation processes to support the development of athletes.
|
Examination
|
| LO-5 |
To be able to use Newton's theories of motion to improve athletic performance. |
PO-2 Gains in-depth knowledge of exercise physiology and training science and can use this knowledge in practical applications.
|
Examination
|
PO: Programme Outcomes
MME:Method of measurement & Evaluation |
| Course Contents |
| The course covers linear and curvilinear motion, kinetic and kinematic analysis, static and dynamic principles, inertia, weight and mass concepts. It also covers momentum and force analysis, friction force and center of mass calculations, eccentric forces and force pairs, moment and lever systems, angular momentum and Newton's laws of motion. |
| Weekly Course Content |
| Week |
Subject |
Learning Activities and Teaching Methods |
| 1 |
Introduction to sports biomechanics: Fundamental concepts and terminology |
Lecture and Discussion,
Kinetic and Kinematic Analysis Studies,
Group Work and Applied Movement Assessment,
Project Preparation and Presentation Studies,
Case Studies and Problem Solving. |
| 2 |
Linear and angular motion: Basic principles and concepts |
Lecture and Discussion,
Kinetic and Kinematic Analysis Studies,
Group Work and Applied Movement Assessment,
Project Preparation and Presentation Studies,
Case Studies and Problem Solving. |
| 3 |
Kinetic and kinematic analyses: Structural analysis of motion |
Lecture and Discussion,
Kinetic and Kinematic Analysis Studies,
Group Work and Applied Movement Assessment,
Project Preparation and Presentation Studies,
Case Studies and Problem Solving. |
| 4 |
Static and dynamic principles: Examination of force balance |
Lecture and Discussion,
Kinetic and Kinematic Analysis Studies,
Group Work and Applied Movement Assessment,
Project Preparation and Presentation Studies,
Case Studies and Problem Solving. |
| 5 |
Concepts of inertia, weight, and mass |
Lecture and Discussion,
Kinetic and Kinematic Analysis Studies,
Group Work and Applied Movement Assessment,
Project Preparation and Presentation Studies,
Case Studies and Problem Solving. |
| 6 |
Momentum and force analyses: Impacts on performance |
Lecture and Discussion,
Kinetic and Kinematic Analysis Studies,
Group Work and Applied Movement Assessment,
Project Preparation and Presentation Studies,
Case Studies and Problem Solving. |
| 7 |
Friction forces and center of mass calculations |
Lecture and Discussion,
Kinetic and Kinematic Analysis Studies,
Group Work and Applied Movement Assessment,
Project Preparation and Presentation Studies,
Case Studies and Problem Solving. |
| 8 |
mid-term exam |
|
| 9 |
Eccentric forces and force couples: Practical examples |
Lecture and Discussion,
Kinetic and Kinematic Analysis Studies,
Group Work and Applied Movement Assessment,
Project Preparation and Presentation Studies,
Case Studies and Problem Solving. |
| 10 |
Moments and lever systems: Applications in sports |
Lecture and Discussion,
Kinetic and Kinematic Analysis Studies,
Group Work and Applied Movement Assessment,
Project Preparation and Presentation Studies,
Case Studies and Problem Solving. |
| 11 |
Angular momentum: Concepts and example analyses |
Lecture and Discussion,
Kinetic and Kinematic Analysis Studies,
Group Work and Applied Movement Assessment,
Project Preparation and Presentation Studies,
Case Studies and Problem Solving. |
| 12 |
Newton's laws of motion and their role in enhancing performance |
Lecture and Discussion,
Kinetic and Kinematic Analysis Studies,
Group Work and Applied Movement Assessment,
Project Preparation and Presentation Studies,
Case Studies and Problem Solving. |
| 13 |
Practical motion analysis: Examples from specific sports |
Lecture and Discussion,
Kinetic and Kinematic Analysis Studies,
Group Work and Applied Movement Assessment,
Project Preparation and Presentation Studies,
Case Studies and Problem Solving. |
| 14 |
Project presentations and group evaluations |
Lecture and Discussion,
Kinetic and Kinematic Analysis Studies,
Group Work and Applied Movement Assessment,
Project Preparation and Presentation Studies,
Case Studies and Problem Solving. |
| 15 |
General review and discussions |
Lecture and Discussion,
Kinetic and Kinematic Analysis Studies,
Group Work and Applied Movement Assessment,
Project Preparation and Presentation Studies,
Case Studies and Problem Solving. |
| 16 |
final exam |
|
| Recommend Course Book / Supplementary Book/Reading |
| Required Course instruments and materials |
|
