The binding energy per nucleon is the amount of energy required to break up a nucleus into its component nucleons. It is usually expressed in terms of MeV per nucleon. The binding energy per nucleon peaks at a mass number of around 56. This is because the nucleons are held together by the strong nuclear force, which is strongest at this mass number.

Other related questions:

Q: At what mass number does the nuclear binding energy per nucleon peak?

A: The nuclear binding energy per nucleon peaks at around mass number A=60.

Q: Is the mass number increases binding energy per nucleon?

A: The binding energy per nucleon generally increases with increasing mass number.

Q: Why is the binding energy per nucleon low at low mass number?

A: The binding energy per nucleon is low at low mass number because the strong nuclear force is short-ranged.

Q: What does the peak represent in binding energy curve?

A: The peak in a binding energy curve represents the energy required to break apart a nucleus into its constituent nucleons.

Bibliography

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