Flipping Physics
  • Home
  • Physics Videos
    • AP Physics 1 >
      • AP Physics 1 Review
      • AP Physics 1 Teachers
    • AP Physics C >
      • AP Physics C Review
      • AP Physics C Teachers
    • Playlists
  • GIFs
    • Kinematics GIFs
    • Dynamics GIFs
    • Work Energy and Power GIFs
    • Momentum and Impulse GIFs
    • Rotational Kinematics GIFs
    • Rotational Dynamics GIFs
    • Universal Gravitation GIFs
    • Simple Harmonic Motion GIFs
    • Waves GIFs
    • Sound GIFs
    • Electricity GIFs
  • Flipping
    • Gameful
    • Physics Labs
    • How to Flip
    • How to Learn
    • The Basics >
      • 8 Don'ts
      • 9 Dos
  • About
    • Comments
    • Teacher Comments
    • FAQ
    • Tutoring
    • Share Your Flipping Story
    • Spreadsheets
    • Making a Video
    • Technology
    • My White Privilege
    • Survivor Application
  • Give
  • Shop
  • Help Out
    • Quality Control
    • Spanish Translations
    • Collaborate
  • Blog

Determining the Speed of a Standing Wave - Demonstration (8:32)

Previous Video
Lecture Notes
Support
AP Physics 1
Next Video
The relationship between wavelength and frequency is determined. The number of waves, wavelength, and wave speed at each standing wave frequency is determined. The wave speed is measured independent from the standing waves.
This is an AP Physics 1 Topic.

Content Times:
0:02 Reviewing standing wave patterns
0:30 Relationship between wavelength & frequency of waves
1:47 Determining the number of wavelengths at each frequency
3:43 Creating a data table to determine the wave speed
4:45 All these standing waves have the same wave speed?
7:26 Measuring the speed of the wave pulse
  • Multilingual? Please help translate Flipping Physics videos!
  • Please support me on Patreon!
  • Looking for the Mechanical Wave Driver?
  • Thank you Scott Carter and Christopher Becke for being my Quality Control team for this video.​

                Copyright © 2013-2023 · All Rights Reserved · Flipping Physics