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 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 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

Calculate the average energy required to extract a nucleon from the nucleus of an alpha - particle ,proton and neutron are 4.00150 a.m.u 1.00728 a.m.u and 1.00867 amu respectively .

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

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 .

A given coin has a mass of 3.0 g. Calculate the nuclear energy that would be required to separate all the neutrons and protons from each other. For simplicity assume that the coin is entirely made of ._(29)^(63)Cu atoms of mass 62.92960 u..

Calculate the binding energy per nucleon of ._(20)^(40)Ca . Given that mass of ._(20)^(40)Ca nucleus = 39.962589 u, mass of a proton = 1.007825 u,, mass of Neutron = 1.008665 u and 1 u is equivalent to 931 MeV.