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Vibrations and Waves

(193 Lectures Available)

S# Lecture Course Institute Instructor Discipline
126
  • L36v5: Thickness of a Soap Bubble
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
127
  • L36v6: DEMO Reflection off a Soap Film
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
128
  • L37v1: Light Propagating Through two Slits
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
129
  • L37v2: Superposition and Interference of Plane Waves
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
130
  • L37v3: DEMO Ripple Tank and Moire Pattern
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
131
  • L38v1: Three Slit Interference
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
132
  • L38v2: N-slit Interference
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
133
  • L38v3: N-slit Interference Intensity
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
134
  • L38v4: Phased Radar
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
135
  • L38v5: Single Electron Interference
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
136
  • L39v1: Diffraction Analysis using 2D Fourier Transform
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
137
  • L39v2: Diffraction Through a Single Slit using the 2D Fourier Transform
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
138
  • L39v3: Single Slit Diffraction Intensity
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
139
  • L39v4: Single Slit Diffraction Pattern
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
140
  • L39v5: Measuring Wavelength of Light [DEMO]
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
141
  • L39v6: Interference and Diffraction Pattern
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
142
  • L39v7: Single-slit Diffraction and Double-slit Interference I [DEMO]
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
143
  • L39v8: Single-slit Diffraction and Double-slit Interference II [DEMO]
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
144
  • L3v1: Oscillation with a Drag Force
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
145
  • L3v3: Underdamped Motion
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
146
  • L3v4: Critically Damped Motion
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
147
  • L3v5: Overdamped Motion
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
148
  • L3v6: Underdamped, Critically Damped, and Overdamped Review
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
149
  • L3v7: Critically Damped Door [DEMO]
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
150
  • L3v8: Critically Damped Ball On Track [DEMO]
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences

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