Subscribe to RSS feed
Demonstrations 1 - 20 of 85
Electron Conductance Models Using Maximal Entropy Random Walks
Leakage Inductance in a Transformer
RL Series Circuit
Effective Resistance between an Arbitrary Pair of Nodes in a Graph
Optical Properties of Biological Tissue in the THz Radiation Regime
Modeling a One-Cycle THz Radiation Waveform Moving through Biological Tissue
Spectral Broadening Induced by Self-Phase Modulation
Small Signal (AC) Bipolar Parameters from SPICE Parameters
Circuit Phasor Diagram for Transformers
Engineering-Style Smith Chart
Electrical Conductivity of Silicon Semiconductors
Cooling with a Shaped Pin Fin
Digital IIR Filter Design Showing Poles and Zeros
Toroidal Helical Coils
Mechanism of a Solar Cell
Noise Cancellation in Headphones
Joule's Experiment and the First Law of Thermodynamics
Comparing Two Discrete Lowpass Filters with Low Distortion
Synthesis of Rugate Optical Filter
Series RLC Circuits
The #1 tool for creating Demonstrations
and anything technical.
Explore anything with the first
computational knowledge engine.
The web's most extensive
Course Assistant Apps »
An app for every course—
right in the palm of your hand.
Wolfram Blog »
Read our views on math,
science, and technology.
Computable Document Format »
The format that makes Demonstrations
(and any information) easy to share and interact with.
STEM Initiative »
Programs & resources for
educators, schools & students.
Join the initiative for modernizing
Note: Your message & contact information may be shared with the author of any specific Demonstration for which you give feedback.
© 2016 Wolfram Demonstrations Project & Contributors |
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