Introduction to Physical Science and Engineering(2.0 credits) | ||||||
| Code | : | 10205 | ||||
| Course Type | : | Related Specialized Courses | ||||
| Class Format | : | Lecture | ||||
| Course Name | : | Chemistry | Fundamental and Applied Physics | Automotive Engineering | Automotive Engineering | |
| Starts 1 | : | 4 Spring Semester | 3 Spring Semester | 4 Spring Semester | 4 Spring Semester | |
| Elective/Compulsory | : | Elective | Elective | Elective | Elective | |
| Lecturer | : | Associated Faculty | Associated Faculty | |||
| •Course Purpose |
| Fundamentals in applied physics, material science, and quantum energy are introduced. Magnetism and superconductivity, and recent topics of quantum computers are discussed. Materials sciences to resolve many problems in design of physical properties, in refining and formation processing of materials are discussed. Recent developments in materials science are introduced. Introduction to nuclear fusion and quantum energy utilization are also discussed. |
| •Prerequisite Subjects |
| •Course Topics |
| 1. Introduction to magnetism
2. Introduction to quantum computers 3. Introduction to superconductivity 4. Introduction to laser materials processing I 5. Introduction to laser materials processing II 6. Introduction to nuclear fusion I 7. Introduction to nuclear fusion II 8. Introduction to nuclear fusion III 9. Introduction to nuclear fusion IV 10. Fundamentals of ceramics and applications I 11. Fundamentals of ceramics and applications II 12. Fundamentals of ceramics and applications III 13. Fundamentals of metals and applications I 14. Fundamentals of metals and applications II |
| •Textbook |
| Lecture materials will be given during every lecture. |
| •Additional Reading |
| Shackelford, James F., Introduction to Materials Science for Engineers, Prentice Hall, Upper Saddle River, New Jersey, USA |
| •Grade Assessment |
| Evaluation will be based on written reports to be submitted at each lecture. |
| •Notes |
| •Contacting Faculty |