If M(A,Z), M(p)and M(n) denote the masse...

If M(A,Z), `M_(p)and M_(n)` denote the masses of the nucleus `._(Z)X^(A)`, proton and neutron respectively in units of U (where`1U=931MeV//c^(2)`) and B.E. represents its B.E. in MeV, then

Similar Questions

Explore conceptually related problems

If M (A,Z), M_p and M_n denote the masses of the nucleus "_Z^AX proton and neutron respectively in units of u (lu=931.5MeV//c^2) and BE represents its bonding energy in MeV, then:

If m, m_(n) and m_(p) are the masses of ""_(Z)X^(A) nucleus, neutrol and proton respectively

If m,m_n and m_p are masses of ._Z X^A nucleus, neutron and proton respectively.

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, M_(n) & M_(p) denotes the masses of a nucleous of ._(Z)X^(A) a neutron, and a proton respectively. If the nucleus is separated in to its individual protons and 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

If M(A,Z), `M_(p)and M_(n)` denote the masses of the nucleus `._(Z)X^(A)`, proton and neutron respectively in units of U (where`1U=931MeV//c^(2)`) and B.E. represents its B.E. in MeV, then

Similar Questions

Recommended Questions