Physics 220: General Physics II

Video Lectures

Displaying all 12 video lectures.
Lecture 1
Course Introduction: Syllabus, Electric Charge & Electric Induction
Play Video		 Course Introduction: Syllabus, Electric Charge & Electric Induction
Lecture 3
Gauss's Law and Electric Potential Energy
Play Video		 Gauss's Law and Electric Potential Energy
Lecture 4
Electric Potential Energy
Play Video		 Electric Potential Energy
Lecture 8
Kirchoff's Rules
Play Video		 Kirchoff's Rules
Lecture 10
Introduction to the Magnetic Field: Magnetic Force on a Charge
Play Video		 Introduction to the Magnetic Field: Magnetic Force on a Charge
Lecture 11
B-Field in Straight Wire
Play Video		 B-Field in Straight Wire

In this video lecture, UMKC Prof. Robert Riggs discusses B-Field in Straight Wire, Loop and Solenoid and Ampere's Law.
Lecture 13
Electromotive Force
Play Video		 Electromotive Force

In this video lecture, UMKC Physics Department's Professor Robert Riggs covers Electromotive Force, Farraday's Law and Lenz's Law.
Lecture 16
Impedence and Electromagnetic Waves
Play Video		 Impedence and Electromagnetic Waves
Lecture 17
Doppler Effect
Play Video		 Doppler Effect

In this video lecture, UMKC Physics Department's Professor Robert Riggs discusses Energy of Electromagnetic Waves, Intensity, Global Warming, Doppler Effect and Polarizers.
Lecture 18
Mirror Equation
Play Video		 Mirror Equation

In this video lecture, UMKC Physics Department's Professor Robert Riggs discusses the Mirror Equation, Concave and Convex Mirrors and Plane Mirrors.
Lecture 20
Wave Nature of Light
Play Video		 Wave Nature of Light

In this video lecture, UMKC Physics Department's Professor Robert Riggs discusses the Lens Equation, Human Eye, Wave Nature of Light, Young's Double Slit and Thin Film.
Lecture 21
The Michelson Interferometer and Diffraction
Play Video		 The Michelson Interferometer and Diffraction

In this video lecture, UMKC Physics Department's Professor Robert Riggs discusses the Michelson Interferometer, Diffraction, Resolving Power, Diffraction Crating, CDs - DVDs, X-Ray Diffraction and the Thin Film Problem.