PHYSICS II (4/1 Credits)

Learning Outcomes:

On successful completion of this course, student will be able to: explain the basic concept of electric field, electric potential, electric force, magnetic field, magnetic force, Electromagnetic phenomena, energy level in atom, bonding between two atom; solve quantitative problems in the area of electric charge, electric force, electric potential, electric fields, magnetic field, electromagnetic wave, atomic structure, atomic bonding semiconductor material; execute a plan experiment of direct current circuits, alternating current circuits, capacitor circuits and Faraday’s law of induction and choose appropriate equipment to collect data; analyze the Direct current circuit and alternating current circuit, electromagnetic induction, interference and diffraction of light, Atomic energy level, atomic bonding, p-n junction of semiconductor material; analyze data to create scientific reports of the results of experiments that have been carried out.

Topics:

1. Electric Charge
2. Electric Fields
3. Gauss’s Law
4. Electric Potential
5. Capacitor
6. Current and Resistance
7. Circuits
8. Magnetic Fields
9. Induction and inductance
10. Electromagnetic Oscillation and Alternating Current
11. Electromagnetic Waves
12. Interference
13. Diffraction
14. Atomic theory
15. Atomic Bonding and Semiconductor materials
16. Introduction to Electrical Instruments and Concept
17. Kirchhoff Voltage-Current Law and Potentiometer
18. Load Effect, Maximum Power Transfer, and Superposition
19. Basic Electrical Circuit
20. Capacitance and Resistivity
21. Faraday’s Law of Induction
22. LRC Series Circuit