Obtain the binding energy of the nuclei `"_26^56Fe` and `"_83^209Bi` in units ofMeV from the following data: m `("_26^56Fe)` = 55.934939 u m `("_83^209Bi)` = 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 "_20^41Ca and "_13^27Al from the following data: m( "_20^40Ca ) = 39.962591 u m( "_20^41Ca )= 40.962278 u m( "_13^26Al ) = 25.986895 u m( "_13^27Al ) = 26.981541 u

Calculate the binding energy per nucleon (in MeV) of the nucleous "_26^56Fe . [Given: mass of "_1^1H =1.007825 u, mass of "_0^1n =1.008665 u, mass of "_26^56Fe =55.934939u. 1u=931 MeV//c^2 ]

Suppose, we think of fission of a "_26^56Fe nucleus into two equal fragments, "_13^28Al . Is the fission energetically possible? Argue by working out Q of the process. Given m ( "_26^56Fe ) = 55.93494 u and m ( "_13^28Al ) = 27.98191 u.

Find mass defect, binding energy and binding energy per nucleon for "_26Fe^56 nucleus. Mass of "_26Fe^56 nucleus = 55.934939 , Mass of neutron =1.008665 amu ,Mass of proton =1.007825 amu and 1 amu = 931 MeV

The Q value of a nuclear reaction A + b rarr 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 reaction and state whether the reaction is exothermic or endothermic. "_6^12C + "_6^12C rarr "_10^20Ne + "_2^4He Atomic masses are given to be m( "_6^12C ) = 12.000000 u m( "_10^20Ne ) = 19.992439 u

The Q value of a nuclear reaction A + b rarr 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 reaction and state whether the reaction is exothermic or endothermic. "_1^1H + "_1^3H rarr "_1^2H + "_1^2H Atomic masses are given to be m ( "_1^2H ) = 2.014102 u m ( "_1^3H ) = 3.016049 u

Calculate the binding enregy per nucleon of _(83)Bi^(209). Given , m_N(_(83)Bi^(209)) = 208.980388 a.m.u.,m(neutron) = 1.008665 a.m.u and m(proton)=1.007825 a.m.u.Given that 1a.m.u. = 931.5 MeV.