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Vibrations and Waves

(193 Lectures Available)

S# Lecture Course Institute Instructor Discipline
151
  • L40v1: Resolution and Diffraction Limit for a Telescope
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
152
  • L40v2: Resolution and Diffraction Limit for a Phone and Laser Beam
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
153
  • L40v3: Interference and Diffraction - Different Wavelength [DEMO]
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
154
  • L40v4: Single Slit Diffraction vs. Two Slit Interference [DEMO]
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
155
  • L41v1: Is light a wave or a particle?
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
156
  • L41v2: Electron interference
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
157
  • L41v3: Variations on the electron interference experiment
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
158
  • L41v4: Uncertainty principle and diffraction
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
159
  • L41v5: Probabilistic nature of electron trajectories
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
160
  • L41v6: Schrodinger equation and electron particle interpretation
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
161
  • L41v7: Standard model - gravitational waves - LIGO
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
162
  • L41v8: Interferometer [DEMO]
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
163
  • L4v1: Introduce a Driving Force
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
164
  • L4v3: Particular and Homogeneous Solution
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
165
  • L5v1: Coordinate System for a Driven Physical Pendulum
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
166
  • L5v2: Small Angle Approximation for the Driven Physical Pendulum
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
167
  • L5v4: Resonance
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
168
  • L5v5: Wine Glass Resonance [DEMO]
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
169
  • L5v6: Summary of Damped Driven Oscillations
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
170
  • L5v7: Different Driven Pendula and Resonance [DEMO]
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
171
  • L6v1: Coupled Oscillator Examples
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
172
  • L6v2: Normal Modes
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
173
  • L6v3: Identification of More Normal Modes
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
174
  • L6v4: Amplitude and Phase of 3 Coupled Mass System
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
175
  • L6v5: Equations of Motion for 3 Coupled Mass System
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences

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