| name | nuclear |
| description | Atomic nucleus and nuclear energy |
| license | MIT |
| compatibility | opencode |
| metadata | {"audience":"physicists","category":"physics"} |
What I do
- Analyze nuclear structure and binding energy
- Model radioactive decay processes
- Calculate nuclear reaction rates
- Study fusion and fission energy
- Analyze radiation shielding requirements
- Model nuclear cross-sections
When to use me
When working with nuclear energy, radiation detection, or medical physics applications.
Key Concepts
- Liquid Drop Model: Semi-empirical mass formula for nuclear binding
- Magic Numbers: Closed shells give extra stability (2, 8, 20, 28, 50, 82, 126)
- Decay Chains: Series of radioactive decays reaching stable lead/bismuth
- Q-Value: Energy release in nuclear reactions, Q = (m_initial - m_final)cĀ²
- Cross Section: Ļ probability for nuclear interactions
- Critical Mass: Minimum mass for sustained nuclear fission
