Find the mean binding energy per one nucleon in `0^(16)` nucleus in MeV.Given `m(O^(16))` =15.9994amu, `m(H^(1))`=1.007823amum `m(n^(1))`=1.008665amu

Calculate the binding energy per nucleon in the nuclei of ._(15)P^(31) . Given m(._(15)P^(31))=30.97376u, m(._(0)n^(1))=1.00865 u, m(._(1)H^(1))=1.00782u .

Find the binding energy of the nucleus of lithium isotope ._(3)^(7)Li & hence find the binding energy per necleon in it. (Given ._(3)^(7)LI atom=7.016005 amu ._(1)H^(1) amu atom=1.007825 amu _(0)^(1)eta=1.008665

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

The binding energies of deutron (._1H^2) and alpha -particle (._2He^4) are 1.25 and 7.2 MeV/nucleon respectively. Which nucleus is more stable? Calculate binding energy per nucleon of ._(26)Fe^(56). M(._(26)Fe^(56)) =55.934939 a.m.u, m(proton)=1.007825 a.m.u., m(neutron) =1.008665 a.m.u.

Calculate the binding energy per nucleon (B.E./nucleon) in the nuclei of ._(26)Fe^(56) . Given : mp[._(26)Fe^(56)]=55.934939 " amu",m[._(0)n^(1)]=1.00865 " amu" , m[._(1)"II"^(1)]=1.00782 " amu"

Calculate the binding energy per nucleon of ._20Ca^(40) nucleus. Given m ._20Ca^(40)=39.962589u , M_(p) =1.007825u and M_(n)=1.008665 u and Take 1u=931MeV .

Find the binding energy and the binding energy pernucleon of the nucleus of ._(8)^(16)O . Given atomic mass of ._(8)^(16)O(m)=15.994915 amu, mass of proton (m_(p))=1.007823 amu, mass of a neutron (m_(n))=1.008665 amu and 1 amu =931.5 MeV.

What is the binding energy per nucleon of _(6)C^(12) nucleus? Given , mass of C^(12) (m_(c))_(m) = 12.000 u Mass of proton m_(p) = 1.0078 u Mass of neutron m_(n) = 1.0087 u and 1 amu = 931.4 MeV

Compute the minimum kinetic energy of proton incident on .^(13)C nuclei at rest in the laboratory the will produce the endothermic reaction ^(13)C(p,n)^(13)N . Given masses are M(.^(13)C)=13.003355 amu, M(.^(1)H)=1.007825 amu m(n)=1.008665 amu, M(.^(13)N)=13.005738 amu