>
Course Unit Title | Course Unit Code | Type of Course Unit | Level of Course Unit | Year of Study | Semester | ECTS Credits |
---|---|---|---|---|---|---|
Biomechanics | BMM119 | Elective | Master's degree | 1 | Spring | 6 |
Prof. Dr. Yasin KİŞİOĞLU
Associate Prof. Dr. Talip ÇELİK
1) Concept os Biomechanics
Understanding of Mechanics Concepts (Apply the principles of mechanics to solve simple qualitative and quantitative problems)
2) Understanding of Human Body (Define the terms and concepts used in describing human movement)
Identify bone, ligament or muscle by name, anatomic location, or function
General characteristics, material properties, appropriate model for tissue and organs,
Analyze the forces acts on skeletal joints for various static and dynamic human activities
3) Applying Mechanics to the Human Body (Comprehend the physical laws and mechanical aspects governing human movement)
Analyze the stresses and strains in biological tissues, loading conditions and material properties,
Identify the viscoelasticity model for the mechanical behavior for a biological tissue
Creep and stress relaxation behavior for a basic viscoelastic material model
4) Biomaterials
5) Biomechanics Applications for Biomedical devices and implant designs
6) Grup studies and grup project
Bölümün/programın program yeterlilikleri sistemde olmadığından ilişkilendirme işlemi yapılamamıştır.
Face to Face
None
mechanics
Introductrion, Biomechanics Intro, Force Vector, Vector Analysis, Moments and Torques, Free Body Diagram, Statics Equilibrium, Centroids and Center of Mass, Friction, Application of Statics, Equilibrium, Stability, and Balance, Work, Power, Energy, Virtuel Work, Potential Energy, Linear Kinematics; Human motion, Linear kinematics, Linear acceleration, Angular Kinematics; Linear and agular motion, General motion, Mechanisms, Types, Functions, Velocity and acceleration, Moments of Inertia, Mess moment of inertia, Angular moment of inertia, Biyomaterials Kinetics; Newton’s laws, Impulse-momentum, Force Acting Human Body, Stress-Strains, Tension, Compression, Shear, Axial Loading, Torsion, Combined Loading, Sress-Strain Relations, Shear, Bending, Beams, Plane Stress, Multiaxial deformations, Beam Deflections, Staticall indeterminate problems (Beams, Columns), Stress Concentrations, Biological Tissues, Grup projects and presentations
1- Biomechanics
Contribution of Semester Studies to Course Grade |
40% |
|||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|
|
||||||||||||
Contribution of Final Examination to Course Grade |
60% |
|||||||||||
Total | 100% |
Turkish
Not Required