How to find binding energy per nucleon?
Understand the Problem
The question is asking how to calculate the binding energy per nucleon, which involves determining the total binding energy of a nucleus and dividing it by the number of nucleons (protons and neutrons) in that nucleus.
Answer
ΔE = 2.66 MeV
The final answer is ΔE = 2.66 MeV for the binding energy per nucleon.
Answer for screen readers
The final answer is ΔE = 2.66 MeV for the binding energy per nucleon.
More Information
The binding energy per nucleon is crucial as it gives insight into the stability of the nucleus; a higher binding energy per nucleon indicates a more stable nucleus.
Tips
Common mistakes include forgetting to convert the mass defect into energy units or not accounting for all nucleons when calculating the per-nucleon value.
Sources
- How to find the binding energy of a nucleon using internal energy - study.com
- 10.3: Nuclear Binding Energy - Physics LibreTexts - phys.libretexts.org
- Nuclear Binding Energy Per Nucleon & Mass Defect Problems - youtube.com
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