# click the up-left corner to select videos from the playlist
source: Roger Moore 2016年4月6日
PHYS 485: Particle Physics
Captured lectures from a fourth year undergraduate course on particle physics given early in 2011 which was before the LHC was in the main part of run 1 and before the Higgs boson was discovered.
Lecture 5: Standard Model and Feynman Diagrams This lecture covers the Standard Model and its limitations and introduces the use of Feynman diagrams for EM interactions. 1:15:41
Lecture 6: Feynman Diagrams 1:11:30
Lecture 7: Weak Interactions 1:16:56
Lecture 8: Symmetries 1:25:15
Lecture 9: Broken Symmetries 1:16:34
Lecture 11: Preserved Symmetries 1:18:49
Lecture 12: Fermi's Golden Rule 1:19:24
Lecture 13: Feynman Rules 1:24:11
Lecture 14: The Dirac Equation 1:17:32
Lecture 15: Quantum Electrodynamics 1:21:06
Lecture 16: Casimir's Trick 1:20:45
Showing posts with label B. (figures)-M-Roger Moore. Show all posts
Showing posts with label B. (figures)-M-Roger Moore. Show all posts
2016-09-20
Roger Moore: Fluids and Waves / U of Alberta
# click the up-left corner to select videos from the playlist
source: Roger Moore 2013年12月23日
PHYS 146: Fluids and Waves at the University of Alberta. For the iBook on the course go to:
https://itunes.apple.com/us/book/flui...
Elasticity part 1: Stress and Strain This lecture introduces the concept of elasticity and covers the definitions of different types of mechanical stress and strain. 32:23
Elasticity part 2: Young's Modulus 36:45
Elasticity part 3: Moduli of Elasticity 22:40
Elasticity part 4: Elastic Limits 20:19
Fluid Statics, part 1: Pressure and Density 12:33
Fluid Statics part 2: Static Pressure 26:15
Fluid Statics, part 3: Pressure Gauges 18:41
Fluid Statics, part 4: Buoyancy 19:32
Fluid Dynamics, part 1: Fluid Flow 14:57
Fluid Dynamics, part 2: Bernoulli's Equation 25:54
Fluid Dynamics, part 3: Viscosity 16:10
Oscillations Part 1: Derivation of Simple Harmonic Motion 26:01
Oscillations Part 2: SHM Parameters 17:24
Oscillations Part 3: Phasors 28:29
Oscillations Part 4: Kinematics and Energy 30:58
Oscillations Part 5: Pendulums 26:50
Oscillations Part 6: Damped Oscillators 34:16
Oscillations Part 7: Driven Oscillators 17:53
Oscillations Part 8: Resonance 31:56
Waves part 1: Wave Types and Properties 25:28
Waves part 2: The Wave Equation 17:51
Waves part 3: Solving the Wave Equation 26:01
Waves part 4: Waves on a String 29:10
Waves part 5: Acoustic Waves 20:47
Waves part 6: Wave Intensity 13:10
Waves part 7: Superposition 26:04
Waves part 8: Interference 29:41
Waves part 9: Standing Waves 36:37
Waves part 10: The Doppler Effect 25:57
Light Waves part 1: Reflection and Refraction 32:45
Light Waves part 2: Lenses 30:32
Light Waves part 3: The Lens Equation 24:43
Light Waves part 4: Dispersion 32:58
Light Waves part 5: Polarization 22:26
Light Waves part 6: Interference 36:25
Light Waves part 7: Diffraction at Slits 34:49
Light Waves part 8: Diffraction Grating 24:07
source: Roger Moore 2013年12月23日
PHYS 146: Fluids and Waves at the University of Alberta. For the iBook on the course go to:
https://itunes.apple.com/us/book/flui...
Elasticity part 1: Stress and Strain This lecture introduces the concept of elasticity and covers the definitions of different types of mechanical stress and strain. 32:23
Elasticity part 2: Young's Modulus 36:45
Elasticity part 3: Moduli of Elasticity 22:40
Elasticity part 4: Elastic Limits 20:19
Fluid Statics, part 1: Pressure and Density 12:33
Fluid Statics part 2: Static Pressure 26:15
Fluid Statics, part 3: Pressure Gauges 18:41
Fluid Statics, part 4: Buoyancy 19:32
Fluid Dynamics, part 1: Fluid Flow 14:57
Fluid Dynamics, part 2: Bernoulli's Equation 25:54
Fluid Dynamics, part 3: Viscosity 16:10
Oscillations Part 1: Derivation of Simple Harmonic Motion 26:01
Oscillations Part 2: SHM Parameters 17:24
Oscillations Part 3: Phasors 28:29
Oscillations Part 4: Kinematics and Energy 30:58
Oscillations Part 5: Pendulums 26:50
Oscillations Part 6: Damped Oscillators 34:16
Oscillations Part 7: Driven Oscillators 17:53
Oscillations Part 8: Resonance 31:56
Waves part 1: Wave Types and Properties 25:28
Waves part 2: The Wave Equation 17:51
Waves part 3: Solving the Wave Equation 26:01
Waves part 4: Waves on a String 29:10
Waves part 5: Acoustic Waves 20:47
Waves part 6: Wave Intensity 13:10
Waves part 7: Superposition 26:04
Waves part 8: Interference 29:41
Waves part 9: Standing Waves 36:37
Waves part 10: The Doppler Effect 25:57
Light Waves part 1: Reflection and Refraction 32:45
Light Waves part 2: Lenses 30:32
Light Waves part 3: The Lens Equation 24:43
Light Waves part 4: Dispersion 32:58
Light Waves part 5: Polarization 22:26
Light Waves part 6: Interference 36:25
Light Waves part 7: Diffraction at Slits 34:49
Light Waves part 8: Diffraction Grating 24:07
2016-09-19
Roger Moore: Newtonian Mechanics and Relativity (2010 at U of Alberta)
# click the up-left corner to select videos from the playlist
source: Roger Moore 2016年4月8日
PHYS 144: Newtonian Mechanics and Relativity
Lectures of a first year, calculus-based course on Newtonian Mechanics and Special Relativity, given in 2010. An introduction to what physics studies as well as basic problem solving techniques and the goals of the course.
Lecture 2: Introduction to Physics 45:27
Lecture 3: Units and Measurements 42:19
Lecture 4: Measurements 37:26
Lecture 5: Kinematics I 38:54
Lecture 6: Kinematics II 45:09
Lecture 7: Kinematics III 39:30
Lecture 8: Uniform Circular Motion 42:12
Lecture 9: Force and Mass 43:30
Lecture 10: Contact Forces 37:49
Lecture 11: Strings and Equilibrium 40:01
Lecture 12: Free Body Diagrams 42:36
Lecture 13: Work and Energy 45:22
Lecture 14: Potential Energy 41:04
Lecture 15: Power 44:49
Lecture 16: Rocket Science 39:16
Lecture 17: Momentum and Impulse 38:46
Lecture 18: Coefficient of Restitution 43:39
Lecture 19: 2D Collisions and Dark Matter 41:01
Lecture 20: Angular Velocity 40:30
Lecture 21: Angular Acceleration 41:52
Lecture 24: Circular Acceleration 44:51
Lecture 25: Moment of a Force 20:32
Lecture 26: Moment of Inertia 42:24
Lecture 27: Angular Energy and Momentum 55:59
Lecture 29: Equilibrium 42:59
Lecture 30: Gyroscopes and Equilibrium 39:29
source: Roger Moore 2016年4月8日
PHYS 144: Newtonian Mechanics and Relativity
Lectures of a first year, calculus-based course on Newtonian Mechanics and Special Relativity, given in 2010. An introduction to what physics studies as well as basic problem solving techniques and the goals of the course.
Lecture 2: Introduction to Physics 45:27
Lecture 3: Units and Measurements 42:19
Lecture 4: Measurements 37:26
Lecture 5: Kinematics I 38:54
Lecture 6: Kinematics II 45:09
Lecture 7: Kinematics III 39:30
Lecture 8: Uniform Circular Motion 42:12
Lecture 9: Force and Mass 43:30
Lecture 10: Contact Forces 37:49
Lecture 11: Strings and Equilibrium 40:01
Lecture 12: Free Body Diagrams 42:36
Lecture 13: Work and Energy 45:22
Lecture 14: Potential Energy 41:04
Lecture 15: Power 44:49
Lecture 16: Rocket Science 39:16
Lecture 17: Momentum and Impulse 38:46
Lecture 18: Coefficient of Restitution 43:39
Lecture 19: 2D Collisions and Dark Matter 41:01
Lecture 20: Angular Velocity 40:30
Lecture 21: Angular Acceleration 41:52
Lecture 24: Circular Acceleration 44:51
Lecture 25: Moment of a Force 20:32
Lecture 26: Moment of Inertia 42:24
Lecture 27: Angular Energy and Momentum 55:59
Lecture 29: Equilibrium 42:59
Lecture 30: Gyroscopes and Equilibrium 39:29
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