Quantum Mechanics for Engineers
© Leon van Dommelen
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Preface
List of Tables
4.1.
One-dimensional eigenfunctions of the harmonic oscillator.
4.2.
The first few spherical harmonics.
4.3.
The first few spherical harmonics rewritten.
4.4.
The first few radial wave functions for hydrogen.
6.1.
Lowest single-particle energy in a cube with 1 cm sides.
7.1.
Properties of photons emitted in multipole transitions.
12.1.
Possible combined angular momentum of identical fermions.
12.2.
Possible combined angular momentum of identical bosons.
13.1.
Electromagnetics I: Fundamental equations and basic solutions.
13.2.
Electromagnetics II: Electromagnetostatic solutions.
14.1.
Properties of the electron and of the simplest nuclei.
14.2.
Alternate names for nuclei.
14.3.
Candidates for nuclei ejected by fermium-256 and others.
14.4.
Spin and parity changes in electromagnetic transitions.
14.5.
Half lifes for E0 transitions.
A.1.
Radial correction factors for hydrogen atom wave functions.
A.2.
More realistic radial integral correction factors for nuclei.
A.3.
Gamma-decay angular integral correction factors.
A.4.
Deuteron model data.
A.5.
Deuteron model data with a repulsive core of 0.5 fm.
D.1.
Additional combined angular momentum values.
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Preface
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