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Physics 4Q03 Lecture 18: This lecture continues the previous one on photons in electromagnetism, and provides a sermon about UV and IR divergences and why you can use any regularization you like to…
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Physics 4Q03 Lecture 15: This lecture describes the leading corrections to the classical BEC, using a Bogoliubov transformation to identify the spectrum of quasiparticle fluctuations about the…
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Physics 4Q03 Lecture 14: This lecture continues the discussion of Bose Einstein condensation and shows how a semiclassical analysis can allow a calculation of the optimal density of condensed…
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Physics 4Q03 Lecture 13: This lecture reviews how to set up averages with statistical mechanics, translating the grand canonical ensemble into the language of occupation number. This is used to…
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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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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 05: This lecture reviews the formalisms of time-independent and time-dependent Rayleigh-Schrodinger perturbation theory for quantum mechanics.
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This lecture is part of MedPhys 4D03 lecture series for the Fall 2020 semester. The Physics
of MRI and MRI design criteria is discussed.
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This lecture is part of MedPhys 4D03 lecture series for the Fall 2020 semester and it provides an introduces the use of convolution and Fourier Transforms pertaining to 1-D and 2-D functions used in…
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This lecture is part of MedPhys 4D03 lecture series for the Fall 2020 semester and it provides an introduction to imaging modalities and to the
theory of signals and systems for modelling medical…
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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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This video describes how to develop the equivalent circuit models for a BJT based on its linearized i-v characteristics.
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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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If you have any questions or suggestions concerning this video, please email me at aguirrel@mcmaster.ca
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