Theoretical Physics on the Personal Computer [E-Book] / by Erich W. Schmid, Gerhard Spitz, Wolfgang Lösch.
We would like to thank Mr. A.H. Armstrong, who translated this book, for his many valuable suggestions and corrections. We also acknowledge a stimulating response from our readers. Mr. J. Peeck sent us a diskette containing the pro grams modified to run on an ATARI computer. Mr. H.U. Zimmermann sen...
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Full text |
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Personal Name(s): | Schmid, Erich W., author |
Lösch, Wolfgang, author / Spitz, Gerhard, author | |
Imprint: |
Berlin, Heidelberg :
Springer,
1988
|
Physical Description: |
XII, 211 p. online resource. |
Note: |
englisch |
ISBN: |
9783642970887 |
DOI: |
10.1007/978-3-642-97088-7 |
Subject (LOC): |
- 1. Introduction
- 1.1 Programming of the Numerical Portions of the Programs
- 1.2 Programming of the Input and Output
- 2. Numerical Differentiation and Introduction into Screen Dialogue
- 2.1 Formulation of the Problem
- 2.2 Mathematical Methods
- 2.3 Programming
- 2.4 Exercises
- 2.5 Solutions to the Exercises
- 3. Numerical Integration
- 3.1 Formulation of the Problem
- 3.2 Numerical Methods
- 3.3 Programming
- 3.4 Exercises
- 3.5 Solutions to the Exercises
- 4. Harmonic Oscillations with Sliding and Static Friction, Graphical Output of Curves
- 4.1 Formulation of the Problem
- 4.2 Numerical Treatment
- 4.3 Programming
- 4.4 Exercises
- 4.5 Solutions to the Exercises
- 5. Anharmonic Free and Forced Oscillations
- 5.1 Formulation of the Problem
- 5.2 Numerical Treatment
- 5.3 Programming
- 5.4 Exercises
- 5.5 Solutions to the Exercises
- 6. Coupled Harmonic Oscillations
- 6.1 Formulation of the Problem
- 6.2 Numerical Method
- 6.3 Programming
- 6.4 Exercises
- 6.5 Solutions to the Exercises
- 7. The Flight Path of a Space Craft as a Solution of the Hamilton Equations
- 7.1 Formulation of the Problem
- 7.2 Mathematical Methods
- 7.3 Programming
- 7.4 Exercises
- 7.5 Solutions to the Exercises
- 8. The Celestial Mechanics Three-body Problem
- 8.1 Formulation of the Problem
- 8.2 Mathematical Method
- 8.3 Programming
- 8.4 Exercises
- 8.5 Solutions to the Exercises
- 9. Computation of Electric Fields by the Method of Successive Over-relaxation
- 9.1 Formulation of the Problem
- 9.2 Numerical Method
- 9.3 Programming
- 9.4 Exercises
- 9.5 Solutions to the Exercises
- 10. The Van der Waals Equation
- 10.1 Formulation of the Problem
- 10.2 Numerical Method
- 10.3 Programming
- 10.4 Exercises
- 10.5 Solutions to the Exercises
- 11. Solution of the Fourier Heat Conduction Equation and the “Geo-Power Station”
- 11.1 Formulation of the Problem
- 11.2 Method of Solution
- 11.3 Programming
- 11.4 Exercises
- 11.5 Solutions to the Exercises
- 12. Group and Phase Velocity in the Example of Water Waves
- 12.1 Formulation of the Problem
- 12.2 Numerical Method
- 12.3 Programming
- 12.4 Exercises
- 12.5 Solutions to the Exercises
- 13. Solution of the Radial Schrödinger Equation by the Fox-Goodwin Method
- 13.1 Formulation of the Problem
- 13.2 Numerical Method of Solution
- 13.3 Programming
- 13.4 Exercises
- 13.5 Solutions to the Exercises
- 14. The Quantum Mechanical Harmonic Oscillator
- 14.1 Formulation of the Problem
- 14.2 Numerical Method
- 14.3 Programming
- 14.4 Exercises
- 14.5 Solutions to the Exercises
- 15. Solution of the Schrödinger Equation in Harmonic Oscillator Representation
- 15.1 Formulation of the Problem
- 15.2 Numerical Method
- 15.3 Programming
- 15.4 Exercises
- 15.5 Solutions to the Exercises
- 16. The Ground State of the Helium Atom by the Hylleraas Method
- 16.1 Formulation of the Problem
- 16.2 Setting up the State Basis and the Matrix Equation
- 16.3 Programming
- 16.4 Exercises
- 16.5 Solutions to the Exercises
- 17. The Spherical Harmonics
- 17.1 Formulation of the Problem
- 17.2 Numerical Method
- 17.3 Programming
- 17.4 Exercises
- 17.5 Solutions to the Exercises
- 18. The Spherical Bessel Functions
- 18.1 Formulation of the Problem
- 18.2 Mathematical Method
- 18.3 Programming
- 18.4 Exercises
- 18.5 Solutions to the Exercises
- 19. Scattering of an Uncharged Particle from a Spherically Symmetric Potential
- 19.1 Formulation of the Problem
- 19.2 Mathematical Treatment of the Scattering Problem
- 19.3 Programming
- 19.4 Exercises
- 19.5 Solutions to the Exercises
- References.