Ncert Exercises & Solutions

13.3 Obtain the binding energy (in MeV) of a nitrogen nucleus \(\left({ }_{7}^{14} \mathrm{~N}\right)\), given mass of nitrogen nucleus, \(m_\left({ }_{7}^{14} \mathrm{~N}\right)\)=14.00307 u.

Hint: The binding energy can be obtained by finding the mass defect in the nitrogen nucleus.
Step 1: Find the mass defect in the nitrogen nucleus.

The atomic mass of

{}_{7}^{14}N

nitrogen, m = 14.00307 u

A nucleus of

{}_{7}^{14}N

nitrogen contains 7 protons and 7 neutrons.

Hence, the mass defect of this nucleus,

∆ m = 7 m_{H} + 7 m_{n} - m

where,

Mass of a proton,

m_{H}

= 1.007825 u
mass of a neutron,

m_{n}

= 1.008665 u

Mass defect,

∴ ∆ m = 7 \times 1.007825 + 7 \times 1.008665 - 14.00307 = 0.11236 u

But 1 u = 931.5 MeV / c^{2}

∴ ∆ m = 0.111236 \times 931.5 MeV / c^{2}

Step 2: Find the binding energy of nitrogen nucleus.

Hence, the binding energy of the nucleus is given as:

E_{b} = ∆ {mc}^{2}

where, c= speed of light

∴ E_{b} = 0.11236 \times 931.5 (\frac{MeV}{c^{2}}) c^{2} = 104.66334 MeV

Hence, the binding energy of a nitrogen nucleus is 104.66334 MeV.

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