Worksheet | Mid-term exam | Final exam | Total. | |
---|---|---|---|---|
1. | 4% | 40% | 44% | |
2. | 1% | 10% | 11% | |
3. | 5% | 40% | 45% | |
Total. | 10% | 40% | 50% | - |
Class schedule | HW assignments (Including preparation and review of the class.) | Amount of Time Required | |
---|---|---|---|
1. | (1)Differential law of electrostatic field - Coulomb's law - Gauss's law |
Preparation: Textbook pp.6-8, 38-47 | 190minutes |
Review: Review Worksheet1 and try to solve it by yourself. | |||
2. | (1) Differential law of electrostatic field - Gauss's law of differential systems - Gauss's divergence theorem - Gauss's law of differential system without vortex - Stokes' theorem |
Preparation: pp.74-90 of the textbook | 190minutes |
Review: Review Worksheet2 and try to solve it by yourself. | |||
3. | (1) Differential law of electrostatic field - Electrostatic potential - Poisson's equation and Laplace's equation (2) Conductors and electrostatic field - Conductors and insulators, electrostatic field around conductors - Boundary value problems of conductors, mirror image method |
Preparation: pp.90-99, 102-113 of the textbook | 190minutes |
Review: Review Worksheet3 and try to solve it by yourself. | |||
4. | (3) Dielectric and electrostatic field - Dielectric, Electric field between polar plates in the presence of dielectric - Polarization and electric flux density - Boundary conditions of electrostatic field - Example of electrostatic field when there is a dielectric |
Preparation: pp.280-299 of the textbook | 190minutes |
Review: Review Worksheet4 and try to solve it by yourself. | |||
5. | Comprehensive review of 1-5 | Review the contents of 1-5 | 190minutes |
6. | Midterm exam and review | Scope of exam: contents of lesson plans 1-5. Evaluation of achievement objectives 1. | 190minutes |
7. | Maxwell's equations (1): - Displacement current - Rotation of vector - Stokes' theorem - Differential forms of Maxwell's equations |
Preparation: Handout; Textbook pp.178-186, 227-237; Reference book pp. 251-261 | 190minutes |
Review: Review Worksheet7 and try to solve it by yourself. | |||
8. | Maxwell's equations (2): - Wave equation - Plane wave - Propagation in lossy media |
Preparation: Textbook pp.250-259 | 190minutes |
Review: Review Worksheet8 and try to solve it by yourself. | |||
9. | Pointing vector and generation of electromagnetic waves: - Energy carried by electromagnetic waves - Pointing vector - Wave equation and properties of electromagnetic waves - Generation of electromagnetic waves |
Preparation: Textbook pp.260-273 | 188minutes |
Review: Review Worksheet9 and try to solve it by yourself. | |||
10. | Electromagnetic potential and radiation of electromagnetic waves: - Electromagnetic potential - Gauge transformation - Lorentz gauge - Retarded potential - Electric dipole radiation |
Preparation: Textbook pp.314-323 | 190minutes |
Review: Review Worksheet10 and try to solve it by yourself. | |||
11. | Propagation of electromagnetic waves (1): - Polarization - Interference - Diffraction |
Preparation: Textbook pp.323-332 | 190minutes |
Review: Review Worksheet11 and try to solve it by yourself. | |||
12. | Propagation of electromagnetic waves (2): - Boundary conditions of electromagnetic waves across two media - Snell's law - Transmittance and reflectance of electromagnetic waves considering polarization |
Preparation: Handout; Reference book pp.240-247, 286-307 | 190minutes |
Review: Review Worksheet12 and try to solve it by yourself. | |||
13. | Comprehensive review of 7-12 | Review of the contents of 7-12 sessions. | 190minutes |
14. | Final exam and review | Scope of exam: contents of lesson plans 7-13. Evaluation of achievement objective 2-3. | 190minutes |
Total. | - | - | 2658minutes |
ways of feedback | specific contents about "Other" |
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Feedback in the class |
Work experience | Work experience and relevance to the course content if applicable |
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N/A | N/A |