Obtain the binding energy of the nuclei `._(26)^(56)Fe` and `._(83)^(209)Bi`in units of MeV from the following data : `m (._(26)^(56)Fe)= 55.934939 u, m (._(83)^(209)Bi)=208.980388 u`

The neutron separation energy is defined as the energy required to remove a neutron from the nucleus. Obtain the neutron separation energies of the nuclei ._(20)^(41)Ca and ._(13)^(27)Al from the following data : m(._(20)^(40)Ca)=39.962591 u m(._(20)^(41)Ca)=40.962278 u m(._(13)^(26)Al)=25.986895 u m(._(13)^(27)Al)=26.981541 u

Obtain the binding energy (in MeV. Of a nitrogen nucleus (._(7)^(14)N) , given m (._(7)^(14)N) = 14.00307 u .

Suppose we think of fission of a ._(26)^(56)Fe nucleus into two equal fragments, ._(13)^(28)Al . Is the fission energetically possible ? Argue by working out Q of the process. Give m(._(26)^(56)Fe)=55.93494 u and m(._(13)^(28)Al)=27.98191 u .

Find the binding energy of ._(26)^(56)Fe . Atomic mass of Fe is 55.9349u and that of Hydrogen is 1.00783u and mass of neutron is 1.00876u.

Consider the D - T reaction (deuterium - tritium fusion) ._(1)^(2)H+ ._(1)^(3)H to ._(2)^(4)He + n Calculate the energy released in MeV in this reaction from the data : m(._(1)^(2)H)=2.014102 u m(._(1)^(3)H)=3.016049 u

The Q value of a nuclear reaction A+b to C+d is defined by Q=[m_(A)+m_(b)-m_(C )-m_(d)]c^(2) where the masses refer to the respective nuclei. Determine from the given data the Q-value of the following reactions and state whether the reactions are exothermic or endothermic. ._(6)^(12)C+ ._(6)^(12)C to ._(10)^(20)Ne+ ._(2)^(4)He Atomic masses are given to be m(._(1)^(2)H)=2.014102 u m(._(1)^(3)H)=3.016049 u m(._(6)^(12)C)=12.000000 u m(._(10)^(20)Ne)=19.992439 u

The Q value of a nuclear reaction A+b to C+d is defined by Q=[m_(A)+m_(b)-m_(C )-m_(d)]c^(2) where the masses refer to the respective nuclei. Determine from the given data the Q-value of the following reactions and state whether the reactions are exothermic or endothermic. ._(1)^(1)H+ ._(1)^(3)H to ._(1)^(2)H+._(1)^(2) Atomic masses are given to be m(._(1)^(2)H)=2.014102 u m(._(1)^(3)H)=3.016049 u m(._(6)^(12)C)=12.000000 u m(._(10)^(20)Ne)=19.992439 u