Wolfram Demonstrations Project
S. M. Blinder
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Demonstrations 21 - 40 of 238
Two-Parameter Variational Functions for the Helium Isoelectronic SeriesShowing Faraday's Law with an OscilloscopeElectromagnetic Field Energies in Capacitors and InductorsMagic Numbers in the Nuclear Shell ModelThe Fine-Structure Constant from the Old Quantum Theory
Two-Parameter Variational Functions for the Helium Isoelectronic Series
Showing Faraday's Law with an Oscilloscope
Electromagnetic Field Energies in Capacitors and Inductors
Magic Numbers in the Nuclear Shell Model
The Fine-Structure Constant from the Old Quantum Theory
Valence-Bond Theory of the Hydrogen MoleculeMomentum EigenstatesHoop DreamsFranck-Condon Principle in Vibronic TransitionsQuantum Mechanics of a Bouncing Ball
Valence-Bond Theory of the Hydrogen Molecule
Momentum Eigenstates
Hoop Dreams
Franck-Condon Principle in Vibronic Transitions
Quantum Mechanics of a Bouncing Ball
Temperature and Entropy of a Black HoleInelastic Collisions of Two SpheresSchrödinger's Cat on CatnipCurve Fitting to Find Missing Elements in Mendeleev's Periodic TableVan der Waals Isotherms
Temperature and Entropy of a Black Hole
Inelastic Collisions of Two Spheres
Schrödinger's Cat on Catnip
Curve Fitting to Find Missing Elements in Mendeleev's Periodic Table
Van der Waals Isotherms
Pie Chart with Fractions2D Analog for Coulomb DegeneraciesRepresentations of Trigonometric and Hyperbolic Functions in Terms of Sector AreasNecker CubeThe Runge-Lenz Vector
Pie Chart with Fractions
2D Analog for Coulomb Degeneracies
Representations of Trigonometric and Hyperbolic Functions in Terms of Sector Areas
Necker Cube
The Runge-Lenz Vector

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