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Results #1-#10 of 46
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Hydrogenic Wavefunctions JS Model  [ Computer Program ]
  
Match Score:
100
Byline:
W. Christian, L. Wee, and J. Palop
Post a comment | Relations
The Hydrogen Atom (Coulomb) Probability Densities simulation shows the probability density of the first few (n = 1, 2, and 3, and associated l and m values) energy eigenstates for…
Hydrogenic Radial Wave Function JS Model  [ Computer Program ]
  
Match Score:
100
Byline:
W. Christian
Post a comment | Relations
The Hydrogenic Radial Wave Function simulation displays the radial wave functions. Users can enter the principal, angular momentum, and angular momentum projection quantum numbers.…
Hydrogenic Angular Wave Function JS Model  [ Computer Program ]
  
Match Score:
100
Byline:
W. Christian
Post a comment | Relations
This simulation plots the (x,z) projection of the angular part of the hydrogenic wave function Y l m (θ,0) to show the spatial orientation of the electron's orbital around the…
Hydrogenic Wave Function Amplitude JS Model  [ Computer Program ]
  
Match Score:
100
Byline:
W. Christian
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This simulation shows the (x,z) projection of an idealized hydrogen atom wave function. It is the solution to the Schrödinger equation for an electron confined by a 1/r 2…
  
Match Score:
100
Byline:
M. Belloni, W. Christian, and A. Cox
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Physlet Quantum Physics Section 3: The Need for a Quantum Theory provides simulation-based interactive resources that illustrate the experiments that motivated the creation of…
Wigner Function and Phase Space JS  [ Computer Program ]
  
Match Score:
100
Byline:
W. Christian, R. Hanson, and M. Belloni
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The Wigner Function and Phase Space JS program displays the time evolution of the position-space wave function and the associated quasi-probability distribution in phase space via…
Spline Potential Eigenfunctions Model  [ Computer Program ]
  
Match Score:
100
Byline:
W. Christian
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The Spline Potential Eigenfunctions Model computes the Schrödinger equation energy eigenvalues and eigenfunctions for a particle confined to a potential well with hard walls at -a/2…
Schrödinger Equation Eigensystem Model  [ Computer Program ]
  
Match Score:
100
Byline:
W. Christian
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The Schrödinger Numerov Eigensystem Model solves the time-independent Schrödinger Equation with arbitrary potential energy V(x) using the Numerov method recast on a discrete lattice.…
  
Match Score:
100
Byline:
W. Christian, F. Esquembre, and M. Belloni
Post a comment | Relations
The Parallel Two-Dimensional Time-Dependent Schrödinger Equation Model implements a staggered-time algorithm in which the real and imaginary parts of the wave function on a 2D grid…
  
Match Score:
100
Byline:
W. Christian, M. Belloni, and C. Singh
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The QuILT JavaScript package contains exercises for the teaching of time evolution of wave functions in quantum mechanics. The file contains ready-to-run JavaScript simulations and a…
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Results #1-#10 of 46

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