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1-24 of 39 results for: simulation

Select this link to view the Laminate Damage Simulator, developed at NPL. This simulation interacts with a high-quality... see more

A Shockwave simulation designed to illustrate the basic principles and operation of a mass spectrometer.

Our applet simulates hysteresis using a random-field ising model developed by Jim Sethna and his group. You can run our... see more

A program to illustrate the appearance of fast moving objects due to special relativity. Effects modeled are: the Lorentz... see more

A collection of simulations and virtual labs focusing on first-year college physics. PhET provides fun, interactive,... see more

An interactive applet, with many of the parameters user-defined.

A shockwave simulation of the uncertainty principle where the user picks the value for the uncertainty in momentum. The... see more

A group of simulations on the physical and geometric nature of light along with applications of electromagnetic... see more

Applet and tutorial includes quiz, references, SPICE/CAD simulation, and worksheet.

This is a simple Ising-type model written in Java. It simulates a system of spins located on the grid points of a... see more

A complete set of simulations for the second semester of a college level physics class.

[en] The simulation allows one to explore the photoelectric effect, i.e. the emission of electrons by an illuminated... see more

This is a simulation of a spin model (a so-called Z(N) model) written in Java. The degrees of freedom of the system are... see more

A review of basic quantum theory, with shockwave simulations.

The Phase Shifter in a Mach-Zehnder Interferometer simulation aims to help students make connections between physical and... see more

The Build a Mach-Zehnder Interferometer simulation aims to help students make connections between physical and... see more

The Quantum key distribution with entangled spin ½ particles simulation aims to help students understand the generation... see more

The Bloch sphere representation of quantum states for a spin 1/2 particlesimulation aims to help students make... see more

The Expectation value of an operator simulation aims to help students make connections between experimental measurement... see more

The Superposition states and mixed states simulation allows students to use a Stern-Gerlach apparatus that can be... see more

The Entanglement: the nature of quantum correlations simulation aims to help students determine in what ways entangled... see more

The Spin-1 particles in successive Stern-Gerlach experiments simulation aims to help students make connections between... see more

The Uncertainty of spin measurement outcomes simulation aims to help students develop an understanding of quantum... see more

The Entangled spin ½ particle pairs versus hidden variables simulation allows students to assess whether a simple hidden... see more