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Vibrations and Waves

S# Lecture Course Institute Instructor Discipline
126
L41v2: Electron interference
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
127
L7v1: Rewriting Equations of Motion Using Matrix Notation
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
128
L34v1: How to Get Good Contrast in Photos
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
129
L41v3: Variations on the electron interference experiment
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
130
L38v5: Single Electron Interference
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
131
L7v2: Expressing Amplitude Using Complex Notation
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
132
L34v2: Reflection and Transmission Boundary Conditions
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
133
L7v3: Solving for Eigenfrequencies
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
134
L39v1: Diffraction Analysis using 2D Fourier Transform
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
135
L41v4: Uncertainty principle and diffraction
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
136
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
137
L8v10: Beat Phenomena [DEMO]
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
138
L41v5: Probabilistic nature of electron trajectories
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
139
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
140
L34v4: Electric Field and Reflection and Transmission Coefficient
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
141
L39v3: Single Slit Diffraction Intensity
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
142
L8v5: Coupled Pendula with Specific Initial Conditions
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
143
L41v6: Schrodinger equation and electron particle interpretation
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
144
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
145
L41v7: Standard model – gravitational waves – LIGO
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
146
L39v4: Single Slit Diffraction Pattern
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
147
L8v6: How Frequency Depends on Gravity
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
148
L34v6: Brewster's Angle [DEMO]
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
149
L41v8: Interferometer [DEMO]
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences
150
L8v7: Beat Frequency
Vibrations and Waves MIT Yen-Jie Lee, Alex Shvonski, Michelle Tomasik Basic and Health Sciences