Yale Course , Fall 2006 , Prof. Ramamurti Shankar

**178**students enrolled

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

Up Next

You can skip ad in

SKIP AD >

Advertisement

- 2x
- 1.5x
- 1x
- 0.5x
- 0.25x

EMBED LINK

COPY

DIRECT LINK

COPY

PRIVATE CONTENT

OK

Enter password to view

Please enter valid password!

- Play Pause
- Mute UnMute
- Fullscreen Normal
- @Your Company Title

0:00

5.0 (1 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)
The mathematics underlying LCR circuit theory for AC currents is discussed. Complex numbers are used to convert differential equations to algebraic equations. The notion of impedance is introduced. The radio is used to illustrate the concepts of resonance and variable capacitance. The body of classical electromagnetism treated so far is reviewed and summarized. The displacement current is introduced, leading to the complete Maxwell equations.
0000 - Chapter 1. Review of LCR Circuits
0848 - Chapter 2. Impedance
1739 - Chapter 3. Resonance and Variable Capacitance
6803 - Chapter 4. Displacement current
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.

100%

- 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 SchrÃ¶dinger Equation
- 25.Quantum Mechanics VII Summary of postulates and special topics

- FreeVideoLectures aim to help millions of students across the world acquire knowledge, gain good grades, get jobs, assist in getting promotions through quality learning material.

- You can write to us
- help@freevideolectures.com

2018 FreeVideoLectures. All rights reserved. FreeVideoLectures only promotes free course material from different sources, we are not endrosed by any university.