PHYS 201: Fundamentals of Physics II (Spring 2010, Open Yale Courses): Lecture 24 - Quantum Mechanics VI: Time-dependent Schrodinger Equation

PHYS 201 - Fundamentals of Physics II

Lecture 24 - Quantum Mechanics VI: Time-dependent Schrodinger Equation. The time-dependent Schrodinger Equation is introduced as a powerful analog of Newton's second law of motion that describes quantum dynamics. It is shown how given an initial wave function, one can predict the future behavior using Schrodinger's Equation. The special role of stationary states (states of definite energy) is discussed.
(from oyc.yale.edu)

Lecture 24 - Quantum Mechanics VI: Time-dependent Schrodinger Equation

Time	Lecture Chapters
[00:00:00]	1. The "Theory of Nearly Everything"
[00:12:35]	2. The Time-Dependent Schrodinger Equation
[00:40:16]	3. Stationary States

References

PHYS 201: Lecture 24 - Quantum Mechanics VI: Time-dependent Schrodinger Equation
Instructor: Professor Ramamurti Shankar. Resources: Quantum Mechanics Notes [pdf]. Problem Set 12 and Solutions [pdf]. Transcript [html]. Audio [mp3]. Download Video [mov].

Go to the Course Home or watch other lectures:

Lecture 01 - Electrostatics

Lecture 02 - Electric Fields

Lecture 03 - Gauss's Law I

Lecture 04 - Gauss's Law and Application to Conductors and Insulators

Lecture 05 - The Electric Potential and Conservation of Energy

Lecture 06 - Capacitors

Lecture 07 - Resistance

Lecture 08 - Circuits and Magnetism I

Lecture 09 - Magnetism II

Lecture 10 - Ampere's Law

Lecture 11 - Lenz's and Faraday's Laws