1. |
Outline |
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The topics of these lectures are as follows: (1) Basic properties of biomedical materials (2) Techniques of analyzing the stress on each body part
In this lesson, you will acquire knowledge, techniques, and attitudes about DP1 and DP3.
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2. |
Objectives |
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The aims of the course are to encourage and enable students: (1) to understand the physical structure and functions from the viewpoint of material science and physics (2) to acquire the knowledge of characteristics and problems on biomedical materials (3) to perform fundamental calculation of dynamic analysis of living body
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3. |
Grading Policy |
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Final Exam (100%)
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4. |
Textbook and Reference |
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A handout will be provided every time.
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5. |
Requirements (Assignments) |
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A handout are posted on the LMS in advance. As preparation, read handouts, check keywords and contents, and summarize them in notes.(about 1 hour) As reviewing, refer to distribution prints, organize lesson notes, and deepen your understanding.(about 1 hour)
At the 13th lesson, A3 paper that can be brought in during the test will be distributed. Organize and fill out the necessary information on this form and prepare for the examination. You can cooperate with other students and create it.
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6. |
Note |
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A scientific calculator is required.
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7. |
Schedule |
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1. Introduction: What is biomechanics?
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2. Biological body as a machine: energy, muscle, skelet
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3. Baiomaterials: Composition and mechanical properties of biomaterial
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4. Medical materials 1: History, types, various characteristics and problems of metallic medical materials
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5. Medical material 2: Problems in vivo degradation of medical materials, characteristics of ceramics materials
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6. Medical materials 3: Types, applications, problems of ceramics materials
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7. Medical material 4: Types of polymeric materials, various properties
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8. Medical materials 5: Examples, applications, problems of polymer materials
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9. Biomechanics 1: Outline of biomechanics, foundation of dynamics, static analysis problem
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10. Biomechanics 2: Dynamics around the joint, bending problem
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11. Biomechanics 3: Torsion problem, foundation of physical exercise
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12. Biomechanics 4: Foundation of viscoelastic analysis (1)
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13. Biomechanics 5: Foundation of viscoelastic analysis (2)
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14. Biomechanics 6: Analytical method, Measurement method
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15. Final Exam and Summary
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|
1. |
Outline |
|
The topics of these lectures are as follows: (1) Basic properties of biomedical materials (2) Techniques of analyzing the stress on each body part
In this lesson, you will acquire knowledge, techniques, and attitudes about DP1 and DP3.
|
2. |
Objectives |
|
The aims of the course are to encourage and enable students: (1) to understand the physical structure and functions from the viewpoint of material science and physics (2) to acquire the knowledge of characteristics and problems on biomedical materials (3) to perform fundamental calculation of dynamic analysis of living body
|
3. |
Grading Policy |
|
Final Exam (100%)
|
4. |
Textbook and Reference |
|
A handout will be provided every time.
|
5. |
Requirements (Assignments) |
|
A handout are posted on the LMS in advance. As preparation, read handouts, check keywords and contents, and summarize them in notes.(about 1 hour) As reviewing, refer to distribution prints, organize lesson notes, and deepen your understanding.(about 1 hour)
At the 13th lesson, A3 paper that can be brought in during the test will be distributed. Organize and fill out the necessary information on this form and prepare for the examination. You can cooperate with other students and create it.
|
6. |
Note |
|
A scientific calculator is required.
|
7. |
Schedule |
|
1. Introduction: What is biomechanics?
|
2. Biological body as a machine: energy, muscle, skelet
|
3. Baiomaterials: Composition and mechanical properties of biomaterial
|
4. Medical materials 1: History, types, various characteristics and problems of metallic medical materials
|
5. Medical material 2: Problems in vivo degradation of medical materials, characteristics of ceramics materials
|
6. Medical materials 3: Types, applications, problems of ceramics materials
|
7. Medical material 4: Types of polymeric materials, various properties
|
8. Medical materials 5: Examples, applications, problems of polymer materials
|
9. Biomechanics 1: Outline of biomechanics, foundation of dynamics, static analysis problem
|
10. Biomechanics 2: Dynamics around the joint, bending problem
|
11. Biomechanics 3: Torsion problem, foundation of physical exercise
|
12. Biomechanics 4: Foundation of viscoelastic analysis (1)
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13. Biomechanics 5: Foundation of viscoelastic analysis (2)
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14. Biomechanics 6: Analytical method, Measurement method
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15. Final Exam and Summary
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