The lectures on Quantum Physics build on Intermediate Quantum Physics to cover more advanced topics, including atomic theory and spectroscopy, quantisation of the hydrogen atom, angular momentum in quantum mechanics, and perturbation theory. The lectures on Astrophysics cover the structure and evolution of stars. We will describe the processes that take place as stars evolve, and the eventual fates of different types of stars. We will show that the presence of a binary companion can greatly alter the fate of a star, and show how accretion can liberate large amounts of energy. The lectures on Plasma Physics aim to provide an understanding of the physics of fundamental phenomena in plasmas and to introduce the basic methods of theoretical and experimental plasma physics. The course includes a study of collective phenomena and sheaths, collisional processes, single particle motions, fluid models, equilibria, waves, electromagnetic properties, instabilities, and introduction to kinetic theory. Examples will be given, where appropriate, of the application of these concepts to naturally occurring and man-made plasmas.
Fifty seven 1-hour lectures.
One 3-hour exam, quizzes and assignments (100%).
Quantum Mechanics: A Paradigms Approach, D.H. McIntyre, C.A. Minogue, and J. Tate
PHYS2X11 and PHYS2X12 and (MATH2X21 or MATH2X61 or MATH2067)Co-requisites
PHYS3040 or PHYS3940 or PHYS3941Prohibitions
Any of the following- (PHYS3039, PHYS3939, PHYS3942, PHYS3043, PHYS3943, PHYS3044, PHYS3944, PHYS3047, PHYS3947, PHYS3048, PHYS3948, PHYS3054, PHYS3954, PHYS3055, PHYS3955, PHYS3059, PHYS3959, PHYS3060, PHYS3960, PHYS3961, PHYS3062, PHYS3962, PHYS3064, PHYS3964, PHYS3065, PHYS3965, PHYS3066, PHYS3966, PHYS3071, PHYS3971, PHYS3073, PHYS3973, PHYS3079, PHYS3979, PHYS3081, PHYS3981, PHYS3082, PHYS3982)