Fourier: Making Waves
|
STUDENTS
PLAY NOW!
Maybe later
DONATE TODAY
EDUCATORS:
Ready to leave Java behind?
Chip in $10 to help bring this sim to HTML5 and tablets!
About
Topics
- Waves
- Sines
- Cosines
Description
Learn how to make waves of all different shapes by adding up sines or cosines. Make waves in space and time and measure their wavelengths and periods. See how changing the amplitudes of different harmonics changes the waves. Compare different mathematical expressions for your waves.
Sample Learning Goals
- Explain qualitatively how sines and cosines add up to produce arbitrary periodic functions.
- Recognize that each Fourier component corresponds to a sinusoidal wave with a different wavelength or period.
- Mentally map simple functions between Fourier space and real space.
- Describe sounds in terms of sinusoidal waves.
- Describe the difference between waves in space and waves in time.
- Recognize that wavelength and period do not correspond to specific points on the graph but indicate the length/time between two consecutive troughs, peaks, or any other corresponding points.
- Become comfortable with various mathematical notations for writing Fourier transforms, and relate the mathematics to an intuitive picture of wave forms.
- Determine which aspect of a graph of a wave is described by each of the symbols lambda, T, k, omega, and n.
- Recognize that lambda & T and k & omega are analogous, but not the same.
- Translate an equation from summation notation to extended notation.
- Recognize that the width of a wave packet in position space is inversely related to the width of a wave packet in Fourier space.
- Explain how the Heisenberg Uncertainty principle results from the properties of waves.
- Recognize that the spacing between Fourier components is inversely related to the spacing between wave packets, and that a continuous distribution of fourier components leads to a single wave packet.
Keywords
For Teachers
Teacher Tips
Overview of sim controls, model simplifications, and insights into student thinking ( PDF ). |
Teacher-Submitted Activities
Title | Authors | Level | Type | ||
---|---|---|---|---|---|
Wave unit (Inquiry Based) | Trish Loeblein | UG-Intro HS |
Lab Demo |
||
Wave clicker questions (Inquiry Based) | Trish Loeblein | UG-Intro HS |
CQs | ||
Concept questions for Physics using PhET (Inquiry Based) | Trish Loeblein | HS UG-Intro |
CQs | ||
Waves: Superposition (Inquiry Based) | Trish Loeblein | UG-Intro HS |
CQs Lab |
||
Wave Representations (Inquiry Based) | Trish Loeblein | UG-Intro HS |
Lab | ||
Fourier Making Waves Game (Inquiry Based) | Trish Loeblein | HS | Lab | ||
Wave Modeling and Wave addition (Inquiry Based) | Trish Loeblein | HS UG-Intro |
Lab | ||
How do PhET simulations fit in my middle school program? | Sarah Borenstein | MS | Other | ||
Alignment of PhET sims with NGSS | Trish Loeblein | HS | Other | ||
Introduction to Fourier Analysis | Sam McKagan, Kathy Perkins and Carl Wieman | UG-Intro UG-Adv |
HW | ||
MS and HS TEK to Sim Alignment | Elyse Zimmer | MS HS |
Other | ||
Making use of the Sound Simulations | Don Cameron | HS | Lab |
Translations
Software Requirements
Windows | Macintosh | Linux |
---|---|---|
Microsoft Windows XP/Vista/7 Sun Java 1.5.0_15 or later
|
OS 10.5 or later Sun Java 1.5.0_19 or later
|
Sun Java 1.5.0_15 or later
|
Credits
Design Team | Third-party Libraries | Thanks To |
---|---|---|
|