PHYSICS II (4/1 SCU)

Learning Outcomes:

On successful completion of this course, students will be able to: explain the basic concept of electric field, electric potential, electric force, magnetic field, magnetic force,Electromagnetic fenomena, 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 experiments of direct current circuits, alternating current circuits, capacitor circuits and Faraday’s law of induction and choose an 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; 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. Capacitance;
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. Basic Electrical Circuit; Load Effect, Maximum Power Transfer, and Superposition;
19. Capacitance and Resistivity;
20. LRC Series Circuit;
21. Faraday’s Law of Induction.