- 4.1. First few 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. Energy of the lowest single-particle state 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 uranium-238, radium-223, and fermium-256.
- 14.4. Nuclear spin and parity changes in electromagnetic multipole transitions.
- 14.5. Half lifes for E0 transitions.
- A.1. Radial integral 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.