| S# |
Lecture |
Course |
Institute |
Instructor |
Discipline |
| 51 |
L28v1: 2D waves: Continuous Limit
|
Vibrations and Waves
|
MIT
|
Yen-Jie Lee, Alex Shvonski, Michelle Tomasik
|
Basic and Health Sciences
|
| 52 |
L23v1: Group and Phase Velocity
|
Vibrations and Waves
|
MIT
|
Yen-Jie Lee, Alex Shvonski, Michelle Tomasik
|
Basic and Health Sciences
|
| 53 |
L18v4: Wave Equation for Sound Waves
|
Vibrations and Waves
|
MIT
|
Yen-Jie Lee, Alex Shvonski, Michelle Tomasik
|
Basic and Health Sciences
|
| 54 |
L28v2: Vibrating Membranes
|
Vibrations and Waves
|
MIT
|
Yen-Jie Lee, Alex Shvonski, Michelle Tomasik
|
Basic and Health Sciences
|
| 55 |
|
Vibrations and Waves
|
MIT
|
Yen-Jie Lee, Alex Shvonski, Michelle Tomasik
|
Basic and Health Sciences
|
| 56 |
L23v2: Group and Phase Velocity for Different Dispersion Relations
|
Vibrations and Waves
|
MIT
|
Yen-Jie Lee, Alex Shvonski, Michelle Tomasik
|
Basic and Health Sciences
|
| 57 |
L28v3: Oscillating Soap Film Demo
|
Vibrations and Waves
|
MIT
|
Yen-Jie Lee, Alex Shvonski, Michelle Tomasik
|
Basic and Health Sciences
|
| 58 |
L14v5: Initial and Boundary Conditions
|
Vibrations and Waves
|
MIT
|
Yen-Jie Lee, Alex Shvonski, Michelle Tomasik
|
Basic and Health Sciences
|
| 59 |
L19v1: Degrees of Freedom for Ideal Gas and Speed of Sound
|
Vibrations and Waves
|
MIT
|
Yen-Jie Lee, Alex Shvonski, Michelle Tomasik
|
Basic and Health Sciences
|
| 60 |
L23v3: Group and Phase Velocity for a Bound System
|
Vibrations and Waves
|
MIT
|
Yen-Jie Lee, Alex Shvonski, Michelle Tomasik
|
Basic and Health Sciences
|
| 61 |
L19v2: Measurement of the Speed of Sound
|
Vibrations and Waves
|
MIT
|
Yen-Jie Lee, Alex Shvonski, Michelle Tomasik
|
Basic and Health Sciences
|
| 62 |
|
Vibrations and Waves
|
MIT
|
Yen-Jie Lee, Alex Shvonski, Michelle Tomasik
|
Basic and Health Sciences
|
| 63 |
L29v1: 2D Progressing Wave Solution
|
Vibrations and Waves
|
MIT
|
Yen-Jie Lee, Alex Shvonski, Michelle Tomasik
|
Basic and Health Sciences
|
| 64 |
L23v4: Water and Phase Velocity
|
Vibrations and Waves
|
MIT
|
Yen-Jie Lee, Alex Shvonski, Michelle Tomasik
|
Basic and Health Sciences
|
| 65 |
|
Vibrations and Waves
|
MIT
|
Yen-Jie Lee, Alex Shvonski, Michelle Tomasik
|
Basic and Health Sciences
|
| 66 |
|
Vibrations and Waves
|
MIT
|
Yen-Jie Lee, Alex Shvonski, Michelle Tomasik
|
Basic and Health Sciences
|
| 67 |
L15v1: General Solution to Wave Equation and Fourier decomposition
|
Vibrations and Waves
|
MIT
|
Yen-Jie Lee, Alex Shvonski, Michelle Tomasik
|
Basic and Health Sciences
|
| 68 |
L24v1: Transmission of Information by Wave Pulse
|
Vibrations and Waves
|
MIT
|
Yen-Jie Lee, Alex Shvonski, Michelle Tomasik
|
Basic and Health Sciences
|
| 69 |
L15v2: Fourier Solution for Arbitrary Shape
|
Vibrations and Waves
|
MIT
|
Yen-Jie Lee, Alex Shvonski, Michelle Tomasik
|
Basic and Health Sciences
|
| 70 |
L19v4: Misconception – Shape of a Wave Exiting a Tube
|
Vibrations and Waves
|
MIT
|
Yen-Jie Lee, Alex Shvonski, Michelle Tomasik
|
Basic and Health Sciences
|
| 71 |
L29v3: Review of Boundary Conditions and Snell's Law
|
Vibrations and Waves
|
MIT
|
Yen-Jie Lee, Alex Shvonski, Michelle Tomasik
|
Basic and Health Sciences
|
| 72 |
L24v2: Pulse Function for a Non-dispersive Medium
|
Vibrations and Waves
|
MIT
|
Yen-Jie Lee, Alex Shvonski, Michelle Tomasik
|
Basic and Health Sciences
|
| 73 |
L16v1: Review of Normal Modes in a Continuous Bound System
|
Vibrations and Waves
|
MIT
|
Yen-Jie Lee, Alex Shvonski, Michelle Tomasik
|
Basic and Health Sciences
|
| 74 |
L19v5: Summary and Boundary Conditions
|
Vibrations and Waves
|
MIT
|
Yen-Jie Lee, Alex Shvonski, Michelle Tomasik
|
Basic and Health Sciences
|
| 75 |
L24v3: Set-up Fourier Transform for a Wave in a Dispersive Medium
|
Vibrations and Waves
|
MIT
|
Yen-Jie Lee, Alex Shvonski, Michelle Tomasik
|
Basic and Health Sciences
|
