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Physics 4Q03 Lecture 06: This lecture uses the results for time-dependent perturbation theory to calculate transition rates in terms of the matrix elements of the interaction Hamiltonian, culminating…
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Physics 4Q03 Lecture 07: This lecture applies Fermi's Golden Rule to evaluate the rate for photon emission by an excited atom. This example is also used to illustrate the phenomenon of…
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4Q03 Lecture 08: This lecture continues to convert Fermi's Golden Rule to continuum normalization, doing so for a simple absorption process and then for a general scattering process, defining…
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some editing done. Cleo shows up at end
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EDITING DONE - 10:46, 12:58, 15:51, 16:44, Quiz added in correct spot
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4Q03 Lecture 10: This lecture computes the energy shift of a particle due to its interaction with another, introducing ultraviolet divergences and the concept of renormalization along the way. The…
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4Q03 Lecture 11; This lecture argues why the Hamiltonian should arise as a local function in space, and this is used to motivate the definition of position-space fields. The local form for the…
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Physics 4Q03 Lecture 12: This lecture summarizes the position space formalism of the previous lecture and introduces simple self-interactions.
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Physics 4Q03 Lecture 17: This lecture continues the discussion of quantizing the electromagnetic fields and shows how field energy and momentum can be written in terms of photon creation and…
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If you have any questions or suggestions concerning this video, please email me at aguirrel@mcmaster.ca
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AUTOTECH 2AE3 Chapter 7 - Impact
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CHEMENG 4L02 - Advanced Laboratory Skills Lab: Hemodialysis Week: 2 and 3 Topic: Calculations for week 2 and 3 concepts
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CHEMENG 4L02 - Advanced Laboratory Skills Lab: Hemodialysis Week: 2 and 3 Topic: Graphs and Table of Appendix
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CHEMENG 4L02 - Advanced Laboratory Skills Lab: Hemodialysis Week: 1 Topic: Graphs and Calculations
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First Contingency Incremental Transfer Capability (FCITC)
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