Calculate the minimum energy needed to separate a neutron form a nucleus with Z protons and N neutrons in terms of the masses `M_(Z,N),M_(Z,N-1)` and the mass of the neutron.

Show that the minimum energy needed to sepatate a proton from a nucleus with Z protons and N neutrons is Delta E=(M_z-1+M_H-M_(Z,N)c^(2)) where M_(Z,N)= mass of an atom with Z protons and N neutrons in the nucleus and M_H= mass of a hydrogen atom. this energy is known as proton-separation energy.

Show that the minimum energy needed to sepatate a proton from a nucleus with Z protons and N neutrons is Delta E=(M_z-1+M_H-M_(Z,N)c^(2)) where M_(Z,N)=mass of and atom with Z protons and N neutrons in the nucleus and M_H= mass of a hydrogen atom. this energy is known as proton-separation energy.

There are 10 neutrons in the nucleus of the element _(Z)M^(19) . It belong to

Calculate the binding energy of the deuteron, which consistss of a proton and a neutron, given that the atomic mass of the deuteron is 2.014102 amu,. Take mass of proton (m_(p))=1.007825 amu, mass of a neutron (m_(n))=1.008665 amu and 1amu=931.5 MeV

M_p denotes the mass of a proton and M_n that of a neutron. A given nucleus, of binding energy B , contains Z protons and N neutrons. The mass M(N,Z) of the nucleus is given by.

M_p denotes the mass of a proton and M_n that of a neutron. A given nucleus, of binding energy B , contains Z protons and N neutrons. The mass M(N,Z) of the nucleus is given by.

M_p denotes the mass of a proton and M_n that of a neutron. A given nucleus, of binding energy B , contains Z protons and N neutrons. The mass M(N,Z) of the nucleus is given by.

m_(P) and m_(n) are masses of proton and neutron respectively. An element of mass m has Z protons and N neutrons, then

m_(p) and m_(n) are masses of proton and neutron respectively. An element of mass M has Z protons and N neutrons then

m_(P) and m_(n) are masses of proton and neutron respectively. An element of mass m has Z protons and N neutrons, then