Hands-on Lab: Difference between revisions
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==Fourier Techniques== | ==Fourier Techniques== | ||
*Normal Modes of Coupled Oscillators: a) Three, b) Many, c) Phonons in Solids | *Normal Modes of Coupled Oscillators: a) [http://www.scar.utoronto.ca/~pat/fun/JAVA/coupled/coupled.html Three], b) Many, c) Phonons in Solids | ||
*Fourier Series | *Fourier Series | ||
*Fourier Transform | *Fourier Transform | ||
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*Fourier Syntesis | *Fourier Syntesis | ||
*Convolution and Autocorrelation | *Convolution and Autocorrelation | ||
==Statistical Physics== | ==Statistical Physics== | ||
*Brownian Motion | *Brownian Motion | ||
Revision as of 21:56, 15 March 2012
Unix
Matlab
Hands-on tutorials by the Instructor
Hands-on tutorials by MathWorks
- MATLAB Student Center
- Rapid Code Iteration Using Cells in Matlab Editor
- xcorr function for Autocorrelation Analysis in Project 2
LaTeX
Templates for project reports
- PHYS660 template and the embedded PDF figure
- Math into LaTeX: How to Beautify Equations (and the embedded PDF figure)
LaTeX packages
- MikTeX (free LaTeX implementation for Windows)
- Texmaker (free TeX Editor for Windows, Linux, or Mac OS)
Mathematica
Hands-on tutorials by the Instructor
Hands on tutorials by Wolfram Research
Java Applets
Dissipative Chaos
- Duffing equation attractor
- Damped driven pendulum
- Poincare section for damped driven pendulum
- Lorentz attractor
Hamiltonian Chaos
- Chaos in Three-Body Problems
- Poincare section of double pendulum
- Extensible pendulum
- Standard area preserving map
Transient Chaos
Fractals
Nonlinear Physics and Solitons
Fourier Techniques
- Normal Modes of Coupled Oscillators: a) Three, b) Many, c) Phonons in Solids
- Fourier Series
- Fourier Transform
- Discrete-time Fourier Transform
- Fourier Syntesis
- Convolution and Autocorrelation
Statistical Physics
- Brownian Motion
- Random Walk in 1D
- Random Walk in 2D
- Self-Avoiding Random Walk
- Monte Carlo Estimatation for Pi
- Percolation
- Molecular dynamics
- Ising model
Quantum Mechanics
- The two slit experiment and the collapse of the wavefunction
- Detector in two slit experiment
- Quantum Scattering of Wave Packet
- Visual Quantum Mechanics
- Quantum Mechanics Applets
Complex Systems
- Cellular Automata
- Game of Life
- BTW Sandpile: A model of Self-Organized Criticality
- 3D BTW Sandpile Simulation by UD student John Meyer
- Forest Fire: A model of Self-Organized Criticality
- Spin Glasses
- Hopfield Neural Network
- Neural Networks with Java
- Self-Organizing Networks
- Image Compression by Neural Networks
- Genetic Algorithms
