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Physics 250: Physics for Science and Engineering II (UMKC)

Physics 250: Physics for Science and Engineering II. This consists of 51 lectures given by UMKC's Professor Jerzy Wrobel. This course provides an introduction to electricity and magnetism, light and optics and modern physics. And the course is based on the 7th edition of a textbook Physics for Scientists and Engineers authored R.A. Serway & J.W. Jewett, Jr.

01 - Electrostatic Interaction	27 - Transistor Circuits
02 - Electric Field Vector	28 - Magnetic Interaction
03 - Gauss's Law and Coulomb's Law	29 - Magnetic Interaction (cont.)
04 - Charge, Density and the Electric Field of an ...	30 - Current Carrying Wire in a Magnetic Field
05 - Electric Fields	31 - Magnetic Torque
06 - Electric Potential	32 - Maxwell's Equations
07 - Calculating Electric Potential	33 - Magnetic Field Produced by Electric Currents
08 - Substance in an Electric Field	34 - Faraday's Law of Induction
09 - Capacitors	35 - Self-Induction
10 - Parallel Plate Capacitor	36 - Wave Nature of Electromagnetic Radiation
11 - Systems of Capacitors	37 - Law of Refraction and Law of Reflection
12 - Electric Current	38 - Image Formation
13 - Resistors	39 - Spherical Mirrors
14 - Systems of Resistors	40 - Ray Diagrams and Mirror Equation
15 - Sources of Electromotive Force	41 - The Spherical Lenses
16 - Kirchoff's Rules	42 - The Eye
17 - Applications of Kirchoff's Rules	43 - System of Lenses
18 - Charging and Discharging a Capacitor	44 - Optical Instruments
19 - Sinusoidal Alternating Current	45 - Designing Optical Systems
20 - Relation between Current and Voltage	46 - Light and Vision
21 - Complex Impedance	47 - Demonstration of Interference
22 - AC in Resistors, Capacitors and Inductors	48 - Theory of Interference
23 - Applications of RLC Circuits	49 - Designing Optical Systems
24 - Applications of RLC Circuits (cont.)	50 - Review
25 - More Applications of RLC Circuits	51 - Review
26 - Semiconductor Devices