10809
EXPLORE
LATEST
ABOUT
AUTHORING AREA
PARTICIPATE
Your browser does not support JavaScript or it may be disabled!
Wave Generator
This Demonstration shows a wave generator based on the wave equation, derived from the Navier–Stokes equation. Adjust the speed and viscosity to see how it affects the wave.
Contributed by:
Mike Parenteau
THINGS TO TRY
Rotate and Zoom in 3D
SNAPSHOTS
RELATED LINKS
Navier–Stokes Equations
(
Wolfram
MathWorld
)
Wave Equation
(
Wolfram
MathWorld
)
PERMANENT CITATION
"
Wave Generator
" from
the Wolfram Demonstrations Project
http://demonstrations.wolfram.com/WaveGenerator/
Contributed by:
Mike Parenteau
Share:
Embed Interactive Demonstration
New!
Just copy and paste this snippet of JavaScript code into your website or blog to put the live Demonstration on your site.
More details »
Download Demonstration as CDF »
Download Author Code »
(preview »)
Files require
Wolfram
CDF Player
or
Mathematica
.
Related Demonstrations
More by Author
The Vibrating String
Alain Goriely and Mark Robertson-Tessi
Laplace's Equation on a Circle
David von Seggern (University of Nevada, Reno)
Laplace's Equation on a Square
David von Seggern (University Nevada-Reno)
Travelling Pulses (Wave Packets)
Roger Beresford
Vibrations of a Rectangular Membrane
Alain Goriely
Mathematics of Tsunamis
Yu-Sung Chang
Tsunami Striking a Landscape
Quang-Dao Trinh
Electromagnetic Wave
Enrique Zeleny
Nonlinear Wave Resonances
Oleksii Rudenko
Wave Functions of Identical Particles
Michael Trott
Related Topics
3D Graphics
Calculus
College Mathematics
Differential Equations
Physics
Waves
Browse all topics
Note: To run this Demonstration you need Mathematica 7+ or the free Mathematica Player 7EX
Download or upgrade to
Mathematica Player 7EX
I already have
Mathematica Player
or
Mathematica 7+