Calculate the disintegration energy Q for fission of `._42Mo^(98)` into two equal fragments `._21Sc^(49)` by bombarding with a neutron. Given that
`m(._42Mo^(98))=97.90541u, m(._21Sc^(49))=48.95002u, m_n=1.00867u`

Calculate the disintegration energy Q for the fission of ""^(52)Cr into two equal fragments. The masses you will need are ""^(52)Cr " "51.94051u" """^(26)Mg" "25.98259u

Suppose, we think of fission of a ._26Fe^(56) nucleus into two equal fragments ._13Al^(28) . Is the fission energetically possible? Argue by working out Q of the process. Given m(._26Fe^(56))=55.93494u, m(._13Al^(28))=27.98191 u.

Suppose, we think of fission of a ._26Fe^(56) nucleus into two equal fragments ._13Al^(28) . Is the fission energetically possible? Argue by working out Q of the process. Given m(._26Fe^(56))=55.93494u, m(._13Al^(28))=27.98191 u.

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

Calculate the energy required to separate a neutron (neutron separation energy) from the nucleus ._(20)^(41)Ca . Given r.m. of ._(20)^(41)Ca=40.962278 U , r.m of ._(20)^(40)Ca=39.962591U , r.m. of .^(1)n=1.00867 U .

Find the binding energy of deuteron in MeV. Given that m_p = 1.00728 u m_n = 1.00865 u and m_D = 2.01412 mu .

Consider the fission of ._92^238U by fast neutrons. In one fission event , no neutrons are emitted and the final stable end products, after the beta decay of the primary fragments , are ._58^140Ce and ._44^99Ru . Calculate Q for this fission process. Given , m(._92^238U)=238.05079 u, m(._58^140 Ce) = 139.90543 u m(._44^99Ru) = 98.90594 u, m_n =1.008667 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. Given m (""_(26)^(56)Fe) = 55.93494 u and m(""_(13)^(28)Al) = 27.98191 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. Given m (""_(26)^(56)Fe ) = 55.93494 u and m (""_(13)^(28)Al ) = 27.98191 u.