Obtain the binding energy of the nuclei `._26Fe^(56)` and `._83Bi^(209)` in units of MeV from 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`

Obtain the bindig energy of the nuclie ""_(26)^(56)Fe and ""_83^(209)Bi in units of MeV from the following data. m(""_(26)^(56)Fe) = 55.934939 u " " m(""_(83)^(209)Bi) = 208.980388 u

Obtain the binding energy (in MeV) of a nitrogen nucleus (""_7^14 N) , given m (""_7^14N) = 14.00307 u .

The neutron separation energy is defined as the energy required to remove a neutron from the nucleus. Obtain the neutron separation energies of the nuclei ""_(20)^(41)Ca and ""_(13)^(27)Al from the following data: m(""_(20)^(40)Ca) = 39.962591u m(""_(20)^(41)Ca) = 40.962278 u m(""_(13)^(26)Al) = 25.986895 u m(""_(13)^(27)Al) = 26.981541 u .

Find the binding energy of ._26^56 Fe . Atomic mass of .^56 Fe is 55.9349 u and that of .^1 H is 1.00783 u . Mass of neutron = 1.00867 u .

Compute the binding energy of ""_(2)^(4)"He" nucleus using the following data: Atomic mass of Helium atom, M_(A) (He) = 4.00260 u and that of hydrogen atom, m_(H) = 1.00785 u .

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)

The binding energy of ""_(10)^(20)Ne is 160.6 MeV. Find atomic mass . Given that mass of ""_1^1H = 1.007825 a.m.u mass of ""_0^1n = 1.008665 a.m.u

Calculate the binding energy of a deutron. Given that mass of proton = 1.007825 a.m.u mass of neutron = 1.008665 a.m.u . mass of a deutron = 2.014103 a.m.u .

The radionuclide ""^(11)C decays according to ""_(6)^(11)C to ""_(5)^(11)B + e^(+) + upsilon, T_(1//2) = 20.3 min The maximum energy of the emitted positron is 0.960 MeV. Given the mass values: m(""_6^11C) = 11.011434 u and m(""_6^11B) = 11.009305u . Calculate Q and compare it with the maximum energy of the positron emitted.