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Mechanics: Simple Harmonic Motion

(18 Lectures Available)

S# Lecture Course Institute Instructor Discipline
1
  • Deep Dive - Integrate Energy to Find the Simple Harmonic Motion Solution
Mechanics: Simple Harmonic Motion MIT Peter Dourmashkin, Deepto Charkrabarty,Michelle Tomasik, Analia Barrantes, Aidan MacDonagh Basic and Health Sciences
2
  • Deep Dive - Spring with a Different Coordinate System
Mechanics: Simple Harmonic Motion MIT Peter Dourmashkin, Deepto Charkrabarty,Michelle Tomasik, Analia Barrantes, Aidan MacDonagh Basic and Health Sciences
3
  • L39v1: Simple Harmonic Motion - Equation of Motion
Mechanics: Simple Harmonic Motion MIT Peter Dourmashkin, Deepto Charkrabarty,Michelle Tomasik, Analia Barrantes, Aidan MacDonagh Basic and Health Sciences
4
  • L39v2: Simple Harmonic Motion - Guess a Solution to the Differential Equation
Mechanics: Simple Harmonic Motion MIT Peter Dourmashkin, Deepto Charkrabarty,Michelle Tomasik, Analia Barrantes, Aidan MacDonagh Basic and Health Sciences
5
  • L39v3: Simple Harmonic Motion - Find the Solution Using Initial Conditions
Mechanics: Simple Harmonic Motion MIT Peter Dourmashkin, Deepto Charkrabarty,Michelle Tomasik, Analia Barrantes, Aidan MacDonagh Basic and Health Sciences
6
  • L40v1: Simple Harmonic Motion Solution with Amplitude and Phase
Mechanics: Simple Harmonic Motion MIT Peter Dourmashkin, Deepto Charkrabarty,Michelle Tomasik, Analia Barrantes, Aidan MacDonagh Basic and Health Sciences
7
  • L40v2: Amplitude, Phase, and Period
Mechanics: Simple Harmonic Motion MIT Peter Dourmashkin, Deepto Charkrabarty,Michelle Tomasik, Analia Barrantes, Aidan MacDonagh Basic and Health Sciences
8
  • L40v3: Graphical Representations of Velocity and Acceleration
Mechanics: Simple Harmonic Motion MIT Peter Dourmashkin, Deepto Charkrabarty,Michelle Tomasik, Analia Barrantes, Aidan MacDonagh Basic and Health Sciences
9
  • L40v4: Value of the Phase Constant in SHM
Mechanics: Simple Harmonic Motion MIT Peter Dourmashkin, Deepto Charkrabarty,Michelle Tomasik, Analia Barrantes, Aidan MacDonagh Basic and Health Sciences
10
  • L41v1: Energy Conservation for the Spring
Mechanics: Simple Harmonic Motion MIT Peter Dourmashkin, Deepto Charkrabarty,Michelle Tomasik, Analia Barrantes, Aidan MacDonagh Basic and Health Sciences
11
  • L41v2: Using Energy in Different Contexts
Mechanics: Simple Harmonic Motion MIT Peter Dourmashkin, Deepto Charkrabarty,Michelle Tomasik, Analia Barrantes, Aidan MacDonagh Basic and Health Sciences
12
  • L41v3: Derivition of the SHM Equation from Energy
Mechanics: Simple Harmonic Motion MIT Peter Dourmashkin, Deepto Charkrabarty,Michelle Tomasik, Analia Barrantes, Aidan MacDonagh Basic and Health Sciences
13
  • L41v4: Generalized Energy in SHM
Mechanics: Simple Harmonic Motion MIT Peter Dourmashkin, Deepto Charkrabarty,Michelle Tomasik, Analia Barrantes, Aidan MacDonagh Basic and Health Sciences
14
  • L41v6: Worked Example - U-tube
Mechanics: Simple Harmonic Motion MIT Peter Dourmashkin, Deepto Charkrabarty,Michelle Tomasik, Analia Barrantes, Aidan MacDonagh Basic and Health Sciences
15
  • L42v1: Expand Cosine with the Taylor Formula
Mechanics: Simple Harmonic Motion MIT Peter Dourmashkin, Deepto Charkrabarty,Michelle Tomasik, Analia Barrantes, Aidan MacDonagh Basic and Health Sciences
16
  • L42v5: Physical Pendulum
Mechanics: Simple Harmonic Motion MIT Peter Dourmashkin, Deepto Charkrabarty,Michelle Tomasik, Analia Barrantes, Aidan MacDonagh Basic and Health Sciences
17
  • L43v1: Strategy for Small Oscillation Problems
Mechanics: Simple Harmonic Motion MIT Peter Dourmashkin, Deepto Charkrabarty,Michelle Tomasik, Analia Barrantes, Aidan MacDonagh Basic and Health Sciences
18
  • Simple Pendulum with Initial Conditions at a Quarter Period
Mechanics: Simple Harmonic Motion MIT Peter Dourmashkin, Deepto Charkrabarty,Michelle Tomasik, Analia Barrantes, Aidan MacDonagh Basic and Health Sciences

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