PHY215AB (Fall 14 and Winter 15)
Quantum Mechanics

Instructor: Hsin-Chia Cheng (cheng [at] physics.ucdavis.edu)

Time & Place: Tue & Thu 10:30-11:50AM, 285 PHYSICS

Office Hours: Wed 3-4PM, 433 Physics, or make an appointment through email, or just find me when I am not too busy with other things

Website: http://www.physics.ucdavis.edu/~cheng/teaching/215AB-f14
Lecture notes, Homework assignments and additional information can be found from the smartsite course page.
The class mailing list is phy215a-f14@smartsite.ucdavis.edu (fall quarter) and phy215b-w15@smartsite.ucdavis.edu (winter quarter). The messages sent to it will be archived in the smartsite.

Homework: Homework assignments will be posted in the course Resources on the smartsite
There will be homework assignments mostly every week. Doing the homework problems is an extremely important part of learning. You can't learn the subject by just listening to the lectures without working through things by yourself. They also contain some of the important topics that we won't be able to cover in class. Many homework problems will be challenging. They are not plugging-numbers-into-equations type exercises but require a lot of thinking. In this way you can have better understandings of the subject. You are encouraged to discuss the problem sets with your classmates, TA and me, but you are not allowed to copy other people's homework. Each of you is required to write up your own homework following your own understandings. Each problem set is due about one week after its assignment. The solutions will be posted immediately after the due time and hence no late homework can be accepted. (So even if you couldn't finish you should turn in what you have done.) If you can't do some of the problems correctly, make sure that you study the solutions afterwards to understand them, so that you do learn the subjects better.

TA and Grader: Jun Seok Lee (phylee [at] ucdavis.edu), Office: 440 Physics, Office hour: Tue 1-2PM

Textbook: The recommended books are "Modern Quantum Mechanics," by J. J. Sakurai, Revised Edition, and  "Principles of Quantum Mechanics," by R. Shankar, 2nd Edition. They are widely used as textbooks for graduate level quantum mechanics course nowadays. Another good new book is "Quantum Mechanics: An Experimentalist's Approach" by Eugene Commins. We will not follow exactly the order of these books but the emphasis will be similar. Owning one of these books is not required but recommended. Lecture notes will be posted on on smartsite.

Grading: Homework 50%, Midterm 20%, Final 30%

Outlines of the course:

Topics
 Approx. # of Lectures
 Related Chapters in Sakurai
 Related Chapters in Shankar
215A


Introduction, Mathematical Preliminaries
 3
 1.1-1.5
 Ch1
The Rules of Quantum Mechanics
 3
 3.4, 3.9
 4.1, 4.2
Time Development Operator, Hamiltonian, Fundations of Wave Mechanics
 4
 1.6, 1.7, 2.1, 2.4, 2.6, A.1
 4.3, 5.1, Ch9
One Dimensional Problems
 3
 4.2, 2.3, A.2-A.4
 Ch5, Ch7
Theory of Angular Momentum
 5
 3.1-3.3, 3.5-3.7, B
 Ch12, Ch14, 15.1-15.2
215B


Wave Mechanics in Three Dimensions
 3
 A.5, A.6
 Ch13
The Variational and WKB Methods
 2
 2.4, 5.4
 Ch16
Time-independent Perturbation Theory
 4
 5.1-5.3
 Ch17
Irreducible Spherical Tensors and the Wigner-Eckhart Theorem
 2.5
 3.10
 Ch15.3
Time-dependent Perturbation Theory
 2.5
 5.6-5.8
 Ch18
Scattering Theory
 4
 Ch7
 Ch19

Other Information

If you have not already done so please review the UC Davis Code of Academic Conduct.

If you need to document a learning disability contact the Student Disability Center.