Faculty of Science and Technology PHYS203 â Physics II Syllabus ...

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‣ Power in Electric Circuit ‣ Work, Energy, and Emf ‣ Single-Loop Circuit ‣ Multiloop Circuit ‣ RC Circuit 3. Magnetism (Chapter 28-29, 1.5 weeks) ‣ Magnetic Force ‣ Magnetic Field ‣ Cathode Ray Tube ‣ Hall Effect ‣ Torque on a current loop ‣ Magnetic Dipole Moment ‣ Ampere’s Law ‣ Solenoids and Toroids 4. Inductance (Chapter 30, 1.5 weeks) ‣ Faraday’s Law ‣ Lenz’s Law ‣ Induction ‣ Inductance ‣ Self-Induction ‣ RL Circuits ‣ Energy Stored in Magnetic Field ‣ Mutual Induction 5. Alternating Fields (Chapter 31, 1 week) ‣ LC Oscillations ‣ Damped Oscillations in RLC Circuit ‣ Alternating Current ‣ Forced Oscillations ‣ Power in Alternating-Current Circuits ‣ Transformers 6. Models of magnetism and Maxwell’s equations (Chapter 32, 1 week) ‣ Gauss’ Law for Magnetic Field ‣ Induced Magnetic Field ‣ Displacement Current ‣ Maxwell’s Equations ‣ Magnetic Materials ‣ Diamagnetism ‣ Paramagnetism ‣ Ferromagetism 7. Electromagnetic Waves (Chapter 33, 1 week) ‣ Traveling Electromagnetic Wave ‣ Energy Transport ‣ Radiation Pressure ‣ Polarization ‣ Reflection ‣ Refraction ‣ Total Internal Reflection ‣ Polarization by Reflection 8. Optics (Chapter 34-36, 2 weeks) ‣ Two types of Image ‣ Plane Mirrors ‣ Spherical Mirrors ‣ Thin Lenses ‣ Optical instruments ‣ Diffraction ‣ Young’s Interference
‣ Coherence ‣ Double-Slit Interference ‣ Interference from Thin Films ‣ Michelson Interferometer ‣ Single-Slit Diffraction ‣ Circular Aperture Diffraction ‣ Double-Slit Diffraction ‣ Diffraction Gratings ‣ Dispersion and Resolving Power Class schedule and credits: Timetabled work in hours per week Lecture Tutorial Practice No of teaching weeks Total hours Total credits No / Duration of exam papers 4 2 2 14 112 5.5 1 / 3hrs Contribution of course to meet the professional component: This course prepares students to work professionally in engineering area. Relationship to program outcomes: This course primarily contributes to program outcomes that develop student abilities to: (a) an ability to apply knowledge of mathematics, science and engineering. (e) an ability to identify, formulate, and solve engineering problems. (k) an ability to use techniques, skills, and modern engineering tools necessary for engineering practice. The course secondarily contributes to program outcomes that develop student abilities to: (c) an ability to design electrical circuit and optical system. (i) an ability to recognize the need for, and to engage in lifelong learning. Course content: Maths Engineering Science Engineering Design and Synthesis Complementary Studies Computer Studies Total 100% 100 0 0 0 0 100 Course modulator: Dr. Iat Neng Chan Persons who prepared this description: Dr. Sut Kam Ho, Dr. Iat Neng Chan, Prof. Pak Kin Wong _________________________________________________________________________
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Faculty of Science and Technology PHYS203 â Physics II Syllabus ...