Course Description:
Semiconductors, semiconductor doping, the p-n junction properties and applications, the diodes, bipolar transistor, signal amplification, field effect transistor, Circuit symbols and components.
The course content
Electrostatics, Gauss Law and its applications, Capacitors, The magnetic field of conductors with different shapes, Ampere’s law and its applications. Induced electromotive force, Faraday’s law. Lenz’s law, magnetic properties of matter, analysis of AC circuits, resonance in series and parallel circuits.
The course content
Electrostatics, Gauss Law and its applications, Capacitors, The magnetic field of conductors with different shapes, Ampere’s law and its applications. Induced electromotive force, Faraday’s law. Lenz’s law, magnetic properties of matter, analysis of AC circuits, resonance in series and parallel circuits.
Course Description:
Semiconductors, semiconductor doping, the p-n junction properties and applications, the diodes, bipolar transistor, signal amplification, field effect transistor, Circuit symbols and components.
The course content (Phys 103):
Dimensions, and units of physical quantities
One-dimensional motion with constant acceleration, freely falling objects
Introduction to vectors
Two dimensional motion, projectiles, uniform circular motion
Newton's laws of motion, Forces of friction, applications of Newton's laws
Energy and energy transfer: work done by a constant force, work done by a varying force, kinetic energy, gravitational potential energy, elastic potential energy, conservation of energy, power.
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