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Introduction to Physics1In this class, we give students an introduction to physics in a way that you can prepare for studying classical mechanics,
and classical electrodynamics, and thermal physics. For selected issues in an elementary physics course, students learn basic
concepts of physics as well as a mathematical skills. Both are very important for all the students in modern engineering.
This class consists of a lecture and a practice on problems. Students must learn by themselves through the problems how the
real world and its phenomena are modeled, solved, and interpreted by physics.
Students first learn how the physics are written by mathematics, particularly by calculus. Then, students must solve equations
of motion for a fall motion by gravity and an oscillation motion. Of course, they must explain the motion by the solution
of the equation. After the mechanics part, students learn a law of Coulomb, a Gauss law of electric field, an electric potential,
and a direct-current circuit. For example, a space integration of Coulomb force yields a real electric force maintained by
distributed charges. This integration is skipped by an arithmetic multiplication. An electric potential is obtained by a line
integration of the electric field, by which a capacity of an condenser are calculated. Students must understand these concepts
and perform calculations. Finally, students must explain a relationship between the transient phenomena in the direct-current
circuit and the results of the mechanics part, a fall motion by gravity and a oscillation motion.
- One can express physics by differentiations and integrations
- One can solve equations of motion on a fall by gravity and a oscillation motion
- One can obtain an electric field and an electric potential maintained by distributed charges
- One can solve a problem of transient phenomena and explain them in connection to the objective 2 above
| Exam and report | Total. | |
|---|---|---|
| 1. | 15% | 15% |
| 2. | 35% | 35% |
| 3. | 25% | 25% |
| 4. | 25% | 25% |
| Total. | 100% | - |
Report/short test every week and final exam (or final report): 100 points
The points exceed 60 points
If you understand what is written in a textbook and if you can solve questions in a textbook,
you probably can get 60 points in a final score.
The points exceed 60 points
If you understand what is written in a textbook and if you can solve questions in a textbook,
you probably can get 60 points in a final score.
| Class schedule | HW assignments (Including preparation and review of the class.) | Amount of Time Required | |
|---|---|---|---|
| 1. | What is this class, and its objectives. Practice on differentiation and integrations on sin, cos, exp, log functions |
Finish a report of given problems | 380minutes |
| 2. | Laws of motion Equation of motion and its expression by the differentiation |
Finish a report of given problems | 380minutes |
| 3. | A free fall Potential energy of the gravity |
Finish a report of given problems | 380minutes |
| 4. | A fall by gravity with air resistance, part 1 | Finish a report of given problems | 380minutes |
| 5. | A fall by gravity with air resistance, part 2 | Finish a report of given problems | 380minutes |
| 6. | Harmonic oscillator Potential energy |
Finish a report of given problems | 380minutes |
| 7. | Equation and solution of various oscillation motion Spring under the gravity |
Finish a report of given problems | 380minutes |
| 8. | Summary of the mechanics part Preparation for the electromagnetic part sum and inner product of vectors |
Finish a report of given problems | 380minutes |
| 9. | Coulomb law Superposition of each Coulomb force |
Finish a report of given problems | 380minutes |
| 10. | Gauss's law vector of electric field |
Finish a report of given problems | 380minutes |
| 11. | Electric field and electric potential Capacitance of capacitor |
Finish a report of given problems | 380minutes |
| 12. | Ohm's law and direct-current circuit Joule's law |
Finish a report of given problems | 380minutes |
| 13. | Transient phenomena of RC-circuit and LC-circuit The relationship to the equation of motion |
Finish a report of given problems | 380minutes |
| 14. | Summary Final exam |
Summary of all the class | 380minutes |
| Total. | - | - | 5320minutes |
| ways of feedback | specific contents about "Other" |
|---|---|
| Feedback in the class |
Textbook:
物理学入門 I. 力学 市村・狩野著 (東京化学同人)
物理学入門II. 電磁気学 第2版 狩野・市村著 (東京化学同人)
物理学入門 I. 力学 市村・狩野著 (東京化学同人)
物理学入門II. 電磁気学 第2版 狩野・市村著 (東京化学同人)
Integration and differentiation of cos, sin, tan, exp, log functions (math in high school level)
Summation of vectors and the inner product (math in high school level)
Equation of motion and solution of motion of a free fall and a harmonic oscillation (phys in high school level)
Coulomb law, electric field, and Ohm's law (phys in high school level)
Summation of vectors and the inner product (math in high school level)
Equation of motion and solution of motion of a free fall and a harmonic oscillation (phys in high school level)
Coulomb law, electric field, and Ohm's law (phys in high school level)
- After the class in the classroom.
Please contact before visiting.
For online students, please contact via e-mail.
- Course that cultivates a basic problem-solving skills
| Work experience | Work experience and relevance to the course content if applicable |
|---|---|
| N/A | N/A |
- 4.QUALITY EDUCATION
- 9.INDUSTRY, INNOVATION AND INFRASTRUCTURE
Last modified : Thu Feb 27 10:39:51 JST 2025