PHY293F - 2010
Modern Physics
Dr. Pierre Savaria
(MP129E, phy293h1f physics utoronto ca)
Office Hours: Any time I am there and free, or by appointment (see * below)
Secretary: April Seeley (MP129)
| *Fixed office hours may not be convenient for some of you. So do feel welcome to drop by at any time, any week day, until 18h. If I am in my office and not otherwise busy with other people, you will have my undivided attention. If I am not around, leave a message with my keeper (April) in MP129, and I will get back to you. You can also schedule an appointment by email. |
Topics
After reviewing basic but essential ideas in classical mechanics, we give an introduction to Einstein's special relativity, including evidence for the frame-independence of the speed of light, time dilation, length contraction, causality, and the relativistic connection between energy and momentum. Then we follow the historical development of quantum mechanics with the photoelectric and Compton effects, Bohr's model of the atom, wave-particle duality, leading to Schrödinger's equation and wave functions with a discussion of their general properties and probabilistic interpretation.
Textbook
The textbook for the Modern Physics part of the course is Quantum Mechanics by B.H. Bransden and C.J. Joachain. Copies are available in the U of T Bookstore and the Discount Bookstore. This book will be used from the 8th lecture on. For the first seven lectures, the reference will be the lecture notes. The Relativity chapter of any general first-year physics textbook (eg. Serway & Jewett) can also serve as a reference if needed.
Correspondence
All correspondence with me about the content of the course and the assignments should be sent to phy293h1f physics utoronto ca. Requests for an appointment concerning course administration matters should be sent to the Course Coordinator, Prof. Trischuk.
The tutorials for PHY293/Modern Physics will be held each week on Thursday from November 4 to December 2.
Lecture Notes
The Topic column of the following table contains the outline of each lecture for this part of the course. Comprehensive notes for each lecture will be posted in pdf format as soon as possible after the lecture. A cumulative file containing all lecture notes up to that point will be updated weekly. That cumulative file will have a hyperlinked table of contents and hyperlinked equation and section references.
The lecture notes constitute the main reference for the Modern Physics part of the course. All the material they contain -- except for chapter 0 -- is examinable, whether or not it has been explicitly discussed in class.
Material from chapter 0, however, is implicitly used in several other places in the notes. Therefore, even though it is not directly examinable, it should not be ignored altogether.Problem sets will be posted on the day they are going out, before the lectures, not earlier. They are due one week after the date they are posted.
| Lecture Date | Topic | Textbook Reference | Problem Sets | Practice Materials |
|---|---|---|---|---|
| October 25 | Quick review of mechanics I | Notes | ||
| October 26 | Quick review of mechanics II | Notes | ||
| October 29 | Einstein's relativity postulates | Notes | Problem Set # 5 | < Survival kit # 5 |
| November 1 | Spacetime interval, Lorentz transformations | Notes | ||
| November 2 | Time dilation, length contraction | Examples in class | ||
| November 5 | Addition of velocities, causal structure | Notes | Problem Set # 6 | Survival kit # 6 |
| November 8 | Relativistic mechanics | Notes | Solutions 5 | |
| November 9 | Photoelectric effect | B&J, section 1.2 | ||
| November 12 | Compton effect | B&J, section 1.3 | Problem Set # 7 | Survival kit # 7 |
| November 15 | Bohr's model of the atom | B&J, section 1.4 | Solutions 6 | Test 2 cover page |
| November 16 | De Broglie's matter-wave hypothesis | B&J, section 1.6 | ||
| November 19 | Double slit and nature of light/matter | B&J, section 2.1 | Problem Set # 8 | Survival kit # 8 |
| November 22 | Wave function, complex numbers | B&J, section 2.1 | Solutions 7 | |
| November 23 | Probabilistic interpretation, linearity | B&J, section 2.2 | Test 2 results & solutions | |
| November 26 | Wave packets | B&J, section 2.4 | ||
| November 29 | Heisenberg's uncertainty principle | B&J, section 2.5 | Solutions 8 | |
| November 30 | Schrödinger's equation | B&J, section 3.1 | ||
| December 3 | Some general properties of energy eigenfunctions | B&J, section 3.5 | ||
| December 6 | Qualitative features of energy eigenfunctions | B&J, section 3.6 | Survival kit # 9 | Exam Equation Sheets |
| CUMULATIVE LECTURE NOTES chapters 0-3 | ||||
Problem sets are due by 15h on the following their assignment. They should be left in the course's problem-set drop box in the basement of the McLennan Physics building (across from the elevators -- where you have been handing in past Physics course problem sets). Your tutors will pick them up, grade them and return them in tutorial the following week.
Web Site: on www.physics.utoronto.ca/~phy293h1f/p293_modphys.html
This page maintained by Pierre Savaria