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Nuclear binding energy is theenergy required to separate the nucleus of an atom into its parts. Protons and neutrons in the nucleus of an atom are referred to collectively as nucleons. Nuclear binding energy per nucleon tells us how tightly bound the nucleons are.

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  • What is binding energy of a nucleus?

  • Thus, we can define nuclear binding energy as, 鈥淭he minimum energy required to separate nucleons into its constituent protons and neutrons.鈥?and is given by- Thus, the difference in the mass is converted into Nuclear binding energy. How to calculate binding energy? The nuclear binding energy can be calculated following the below-given steps:

  • How to calculate the nuclear binding energy of a particle?

  • The nuclear binding energy can be calculated following the below given steps: Once the mass defect is known, the nuclear binding energy can be calculated by converting that mass to energy using the formula E_{b}=\left (\Delta m\right )c^{2}.

  • What is the mass defect and binding energy of nucleus?

  • The mass defect of a nucleus is the difference between the total mass of a nucleus and the sum of the masses of all its constituent nucleons. The binding energy (BE) of a nucleus is equal to the amount of energy released in forming the nucleus, or the mass defect multiplied by the speed of light squared.

  • Which nuclide has the greatest binding energy per nucleon?

  • It clearly shows that 26 56 Fe is the nuclide with the greatest binding energy per nucleon. The fusion of lighter nuclei to form heavier nuclei is exothermic when the product has a mass number A 56 but is endothermic for all heavier nuclides.

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