EP105 Engineering Physics.pdf

32 kinetics of rigid bodies momentum principles for a

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3.2 Kinetics of Rigid Bodies Momentum principles for a system of particles; Derivations for equations of motion; Equations of motion; Mass moment of inertia. 3.3 Rotational motion, Inertia & Torque. 4 - - - 8 - - - 12 4. ENERGY & HEAT 4.1 Work, Power, Kinetic Energy, Potential Energy; Conservation of Energy; Spring Energy (Hooke’s Law). 4.2 Temperature scale; Concept of heat & thermal energy, Calorimetry; Thermal expansion; Heat Quantities; Mechanisms of Heat Transfer. 6 - - - 12 - - - 18 5. QUANTUM MECHANICS Introduction to photons, waves and particles; Photoelectric effect; De Broglie waves; Bohr atom; Energy levels; Heisenberg’s uncertainty principle; Lasers. 3 - - - 6 - - - 9 6. ELECTRICAL CONDUCTIVITY & SUPERCONDUCTORS (SC) 6.1 Electrical conductivity in metals Drift velocity; Induction; Expression for electrical resistivity and conductivity, Coulomb’s Law 5 - - - 10 - - - 15
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Rev December 2016 4 & Electric Fields; Electrical Power; Current; Capacitors & Resistors; Series and Parallel components. 6.2; Correlation between temperature and resistivity in superconducting materials; BCS theory; Meissner effect; Type I and Type II SC; Applications of SC. 7. MAGNETISM 7.1 Forces in Magnetic Field for a Particle, Wire/Rod, and Solenoid; Magnetic Flux; Hall effect. 7.2 Magnetic properties of materials: Para-, Dia- & Ferromagnetism, B-H graph in ferromagnetic materials. Hysteresis Loop. 4 - - - 8 - - - 12 Total 42 - - - 84 - - - 126 Total Guided and Independent Learning Component Face to Face Independent Learning Lecture 42 84 Midterm 1 3 Test 1 3 Final Examination 3 9 Total 47 99 Total Student Learning Time (SLT) 146 Credit Hours 3 References 1. University Physics with Modern Physics, 12 th Edition, by Young and Freedman. 2. Fundamentals of Physics, Halliday, Resnick and Walker (7 th edition) Wiley. 3. Engineering Mechanics/Statics, by R.C. Hibbler. Prentice Hall PLO 1 ENGINEERING KNOWLEDGE - Apply knowledge of mathematics, science, engineering fundamentals and an engineering specialization to the solution of complex engineering problems PLO 2 PROBLEM ANALYSIS - identify, formulate, research literature and analyse complex engineering problems reaching substantiated conclusions using first principles of mathematics, natural sciences and engineering sciences PLO 3 DESIGN/DEVELOPMENT OF SOLUTIONS - Design solutions for complex engineering problems and design systems, components or processes that meet specified needs with appropriate
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