| 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 |
| This course includes linear and curvilinear motion; kinetic and kinematic analyses; static and dynamic principles; the concepts of inertia, weight, and mass; momentum and force analyses; calculations of frictional force and center of mass; eccentric forces and force couples; moment and lever systems; and a detailed examination of 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 |
| 1 |
Eniseler, N. (2016). Spor biyomekaniği. Nobel Yayıncılık. |
| Required Course instruments and materials |
| Computer, projector, and PowerPoint presentations,
2D and 3D motion analysis systems (OptoJump, Vicon, Dartfish, etc.),
Measurement tools such as EMG devices,
Video analysis software (Kinovea, Dartfish, Coach’s Eye, etc.),
Sport-specific movement analysis videos and practical examples, |
