Nuclear physicsΒΆ
Nuclear physics is the field of physics that studies atomic nuclei and their constituents and interactions, in addition to the study of other forms of nuclear matter.
Contents:
- Buckling (Nuclear physics)
- Geometric buckling for uniform cylinder
- Geometric buckling for uniform parallelepiped
- Geometric buckling for uniform slab
- Geometric buckling for uniform sphere
- Geometric buckling from multiplication factors and diffusion area
- Geometric buckling from macroscopic cross sections and diffusion coefficient
- Geometric buckling from neutron flux
- Material buckling from material cross sections and diffusion coefficient
- Neutron flux for uniform cylinder
- Neutron flux for uniform parallelepiped
- Neutron flux for uniform slab
- Neutron flux for uniform sphere
- Diffusion area from diffusion coefficient and absorption cross section
- Diffusion equation from neutron flux
- Effective multiplication factor from infinite multiplication factor and probabilities
- Fast fission factor from resonance escape probability
- Fast non-leakage probability from Fermi age and geometric buckling
- Infinite multiplication factor formula
- Infinite multiplication factor from macroscopic cross sections
- Solution to the exponential decay equation
- Macroscopic cross section from mean free path
- Macroscopic cross section from microscopic cross section and number density
- Macroscopic transport cross section from macroscopic scattering cross section
- Migration area from diffusion length and Fermi age
- Average cosine of scattering angle from mass number
- Diffusion coefficient from macroscopic scattering cross section
- Reproduction factor from macroscopic cross sections in fuel
- Resonance escape probability from resonance absorption integral
- Thermal non-leakage probability from diffusion area and geometric buckling
- Thermal utilization factor from macroscopic absorption cross sections