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Physics 220: General Physics II

Physics 220: General Physics II (Algebra-based Electricity and Magnetism) (Spring 2010, UMKC). Instructor: Professor Robert Riggs. This course provides the fundamental principles of physics including sound, electricity, magnetism, optics, elementary modern physics, and applications of these principles to different interdisciplinary natural science.

Lecture 05 - Electric Potential


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Lecture 01 - Introduction to the Concept of Charge
Lecture 02 - Charging by Contact, Induction and Coulomb's Law
Lecture 03 - Electric Field
Lecture 04 - Gauss's Law, Electric Potential and Electric Potential Energy
Lecture 05 - Electric Potential
Lecture 06 - Capacitance, Dielectrics, Series and Parallel
Lecture 07
Lecture 08 - Ohm's Law, Power, Current, Energy and Resistance
Lecture 09 - Ohm's Law, Energy, Internal Resistance and Circuits
Lecture 10 - Exam Review
Lecture 11 - Resistance in Series and Parallel, Kirchhoff's Rules
Lecture 12 - Kirchhoff's Rules, RC Time Constant
Lecture 13 - Introduction to Magnetism
Lecture 14 - Magnetic Force on a Charge, Mass Spectrometer
Lecture 15 - Current Creating Magnetic Field, Straight Wire, Coil and Solenoid
Lecture 16 - Magnetic Force on a Current Carrying Wire
Lecture 17 - EMf, Transformers, Back EMf
Lecture 18 - Transformers, Back EMf
Lecture 19 - Arcs and Spark
Lecture 20 - Exam Review
Lecture 21 - Electromagnetic Waves, Impedance, AC Circuits
Lecture 22 - AC Circuits, Capacitive and Inductive Reactance
Lecture 23 - Capacitive and Inductive Reactance, Law of Reflection
Lecture 24 - Reflection and Refraction of Light
Lecture 25 - Index of Refraction, Critical Angle, Mirror Equation
Lecture 26 - Fun with Focal Points
Lecture 27 - Review
Lecture 28 - Interferences, Young's Double Slit
Lecture 29 - Thin Film Interference
Lecture 30 - Thin Film Redux
Lecture 31 - Diffraction and Polarization
Lecture 32 - Human Eye, Resolving Power and Brian Cox on LRC Collider
Lecture 33 - Special Relativity Introduction, Time Dilation, Contraction
Lecture 34 - Special Relativity
Lecture 35
Lecture 36 - Relative Velocities