Yale Course , Fall 2006 , Prof. Ramamurti Shankar

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Yale Course , Fall 2006 , Prof. Ramamurti Shankar

Electrostatics - Electric Fields - Gauss's Law and Application to Conductors and Insulators - The Electric Potential and Conservation of Energy - Capacitors - Resistance - Circuits and Magnetism - Ampere's Law - Lenz's and Faraday's Laws - LCR CircuitsDC Voltage - LCR CircuitsAC Voltage - Maxwell's Equations and Electromagnetic Waves - Ray or Geometrical Optics - Wave Theory of Light;Quantum Mechanics:The key experiments and wave-particle duality - Measurement theory, states of definite energy - Particle in a Box - Time-dependent Schrdinger Equation - Summary of postulates and special topics

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4.8 (5 Ratings)

For more information about Professor Shankars book based on the lectures from this course,Â Fundamentals of Physics Mechanics,Â Relativity, and Thermodynamics, visitÂ httpbit.ly1jFIqNu.
Fundamentals of Physics, II (PHYS 201)
After a description of more complicated electric circuits, the basic ideas underlying magnetism are discussed and the relationship between electrical charges and magnetic fields is explored. Magnetism is caused and experienced only by moving charges. The Lorentz force on a charge is described and used to deduce the force on a current carrying wire. The cyclotron and velocity selector are described.
0000 - Chapter 1. Review of Electric Circuits
3432 - Chapter 2. Introduction to Magnetism
4529 - Chapter 3. Fundamental Equations of Magnetostatics
6242 - Chapter 4. Force on a Current Carrying Wire
Complete course materials are available at the Open Yale Courses website httpopen.yale.educourses
This course was recorded in Spring 2010.
For more information about Professor Shankars book based on the lectures from this course,Â Fundamentals of Physics Mechanics,Â Relativity, and Thermodynamics, visitÂ httpbit.ly1jFIqNu.

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- 1.Electrostatics
- 2.Electric Fields
- 3.Gausss Law I
- 4.Gausss Law and Application to Conductors and Insulators
- 5.The Electric Potential and Conservation of Energy
- 6.Capacitors
- 7.Resistance
- 8.Circuits and Magnetism I
- 9.Magnetism II
- 10.Amperes Law
- 11.Lenzs and Faradays Laws
- 12.LCR Circuitsâ€”DC Voltage
- 13.LCR Circuitsâ€”AC Voltage
- 14.Maxwells Equations and Electromagnetic Waves I
- 15.Maxwells Equations and Electromagnetic Waves II
- 16.Ray or Geometrical Optics I
- 17.Ray or Geometrical Optics II
- 18.Wave Theory of Light
- 19.Quantum Mechanics I The key experiments and wave-particle duality
- 20.Quantum Mechanics II
- 21.Quantum Mechanics III
- 22.Quantum mechanics IV Measurement theory, states of definite energy
- 23.Quantum Mechanics V Particle in a Box
- 24.Quantum Mechanics VI Time-dependent SchrĂ¶dinger Equation
- 25.Quantum Mechanics VII Summary of postulates and special topics

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