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Vibrations and Waves

(193 Lectures Available)

S# Lecture Course Institute Instructor Discipline
101
  • L31v3: Single Photon Source
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
102
  • L31v4: Creating Circularly Polarized Waves Usig Wave Plates
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
103
  • L31v5: Quarter Wave Plate
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
104
  • L31v6: Polarizer Demo
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
105
  • L32v1: Creation of EM Waves
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
106
  • L32v2: Accelerating Charges
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
107
  • L32v3: Geometry of the Electric Field from an Accelerated Charge
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
108
  • L32v4: Perpendicular Electric Field from an Accelerated Charge
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
109
  • L32v5: Dipole Antenna [DEMO]
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
110
  • L33v1: Maxwell's Equation in a Dielectric
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
111
  • L33v2: Speed of Light in a Dielectric
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
112
  • L34v1: How to Get Good Contrast in Photos
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
113
  • L34v2: Reflection and Transmission Boundary Conditions
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
114
  • L34v3: Apply Maxwell's Equations to Reflection and Transmission at Boundary
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
115
  • L34v4: Electric Field and Reflection and Transmission Coefficient
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
116
  • L34v5: Reflection and Transmission for Different Incident Angles and Brewster's Angle
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
117
  • L34v6: Brewster's Angle [DEMO]
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
118
  • L35v1: Motivation - Soap Bubble Color
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
119
  • L35v2: Superposition of Electric Fields
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
120
  • L35v3: Average Intensity of the Superposition of Electric Fields
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
121
  • L35v4: Complex Representation of Fields with a Phase Difference
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
122
  • L36v1: Phase Difference from Reflection and Transmission at a Boundary
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
123
  • L36v2: Reflected and Transmitted Intensity for a Soap Film
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
124
  • L36v3: Multiple Reflections from a Soap Film
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
125
  • L36v4: Constructive and Destructive Interference from Soap Film
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences

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