Answer :
Answer:
The binding energy of a nucleus is the amount of energy needed to disassemble the nucleus.
Explanation:
The binding energy is defined as the amount amount of energy spent to separate particles from the system of particles. It is also called as separation energy.
The binding energy can be used to separate electron from nuclei in atoms, to ions and atoms in crystals.
The nuclear binding energy is the minimum amount of energy required to separate the nucleus into its components.The components of nucleus are proton and neutrons . The proton and neutron together is called as nucleons.
The nuclear binding energy is very much greater than electron binding energy of the lighter atoms.
The amount of the energy needed to disassemble the nucleus is know as binding energy of a nucleus.
The binding energy is also known as separation energy because it the the amount amount of energy to separate particles from the system of particles.
In the nucleus, binding energy is the minimum amount of energy required to separate the nucleus into its components such as proton and neutrons.
The nuclear binding energy is very much higher than the electron binding energy.
Therefore, the amount of the energy needed to disassemble the nucleus is know as binding energy of a nucleus.
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