Obtain the binding energy of a nitrogen nucleus from the following data:
`m_H=1.00783u`,m_N=1.00867u`,m(`_7^14N)=14.00307u`
Give your answer in units of MeV. [Remember `1u=931.5MeV//c^2`]

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

The binding energy of alpha -particle is ( if m_p=1.00785u , m_n=1.00866u and m_alpha=4.00274u )

Calculate the binding energy of an alpha particle from the following data: mass of _1^1H atom = 1.007825 u mass of neutron = 1.008665 u mass of _4^2He atom = 4.00260 u . Take 1 u = 931 MeV c^(-2)

Calculate packing fraction of alpha particle form the following date: m_(alpha)=4.0028a.m.u., m_(p)=1.00758a.m.u. , and m_(n)=1.00897 a.m.u.

Find the binding energy of an alpha -particle from the following data. Mass of helium nulceus =4.001235 am u Mass of proton =1.007277 am u Mass of neutron =1.00866 am u (take 1 amu=931.4813 MeV) .

Calculate the binding energy for nucleon of . _6^(12) C nucleus, if mass of proton m_p = 10078 u , mass of neutron m_n = 1.0087 u , mass of C_12, m_C =12.0000 u , and 1 u =931 .4 MeV .

Obtain the binding energy of the nuclei ._26Fe^(56) and ._83Bi^(209) in units of MeV form the following data: m(._26Fe^(56))=55.934939a.m.u. , m=(._83Bi^(209))=208.980388 a m u . Which nucleus has greater binding energy per nucleon? Take 1a.m.u 931.5MeV

A nuclider X, initally at rest, undergoes alpha -decay according to the equation 92^(X^(Ato))z ^(Y^(238))+ sigma. The alpha -particle produced in the above process is found to move in a circular track of radiuc 0.11 m in a uniform magnetic field of 3T. Find the binding energy per nucleon (in Mev) of the daughter nuclide Y. Given that (m (y) =228.03u, m(_(2)He^(4)) =4.003u, m (_(0)n^(1)) =1.009 u , m (_(1)H^(1)) =1 amu = 931.5 MeV//c^(2) =1.66 xx10^(-27)kg

If the binding energy of the deuterium is 2.23 MeV . The mass defect given in a.m.u. is.