Faculty of Science and Technology PHYS203 â Physics II Syllabus ...
Faculty of Science and Technology PHYS203 â Physics II Syllabus ...
Faculty of Science and Technology PHYS203 â Physics II Syllabus ...
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‣ Power in Electric Circuit<br />
‣ Work, Energy, <strong>and</strong> Emf<br />
‣ Single-Loop Circuit<br />
‣ Multiloop Circuit<br />
‣ RC Circuit<br />
3. Magnetism (Chapter 28-29, 1.5 weeks)<br />
‣ Magnetic Force<br />
‣ Magnetic Field<br />
‣ Cathode Ray Tube<br />
‣ Hall Effect<br />
‣ Torque on a current loop<br />
‣ Magnetic Dipole Moment<br />
‣ Ampere’s Law<br />
‣ Solenoids <strong>and</strong> Toroids<br />
4. Inductance (Chapter 30, 1.5 weeks)<br />
‣ Faraday’s Law<br />
‣ Lenz’s Law<br />
‣ Induction<br />
‣ Inductance<br />
‣ Self-Induction<br />
‣ RL Circuits<br />
‣ Energy Stored in Magnetic Field<br />
‣ Mutual Induction<br />
5. Alternating Fields (Chapter 31, 1 week)<br />
‣ LC Oscillations<br />
‣ Damped Oscillations in RLC Circuit<br />
‣ Alternating Current<br />
‣ Forced Oscillations<br />
‣ Power in Alternating-Current Circuits<br />
‣ Transformers<br />
6. Models <strong>of</strong> magnetism <strong>and</strong> Maxwell’s equations (Chapter 32, 1 week)<br />
‣ Gauss’ Law for Magnetic Field<br />
‣ Induced Magnetic Field<br />
‣ Displacement Current<br />
‣ Maxwell’s Equations<br />
‣ Magnetic Materials<br />
‣ Diamagnetism<br />
‣ Paramagnetism<br />
‣ Ferromagetism<br />
7. Electromagnetic Waves (Chapter 33, 1 week)<br />
‣ Traveling Electromagnetic Wave<br />
‣ Energy Transport<br />
‣ Radiation Pressure<br />
‣ Polarization<br />
‣ Reflection<br />
‣ Refraction<br />
‣ Total Internal Reflection<br />
‣ Polarization by Reflection<br />
8. Optics (Chapter 34-36, 2 weeks)<br />
‣ Two types <strong>of</strong> Image<br />
‣ Plane Mirrors<br />
‣ Spherical Mirrors<br />
‣ Thin Lenses<br />
‣ Optical instruments<br />
‣ Diffraction<br />
‣ Young’s Interference