The wavelength of a photon needed to remove a proton from a nucleus which is bound to the nucleus with 1MeV energy is nearly

The wavelength of a photon needed to remove a proton from a nucleus which is bound to the nucleus with 1 MeV energy is nearly.

The wavelength of a photon needed to remove a proton from a nucleus. which is bound to the nucleus with 1 MeV energy is nearly

The wavelength of photon needed to remove a proton from a nucleus which is bound to the nucleus with 1 MeV energy is nearly .

The wavelengths of a photon, an electron and a uranium nucleus are same. Maximum energy will be of

(a) Find the energy needed to remove a neutron from the nucleus of the calcium isotope ._(20)^(42)Ca . (b) Find the energy needed to remove a proton from this nucleus. (c ) Why are these energies different? Mass of . _(20)^(40)Ca =40.962278u , mass of proton =1.007825 u .

(a) Find the energy needed to remove a neutron from the nucleus of the calcium isotope ._(20)^(42)Ca . (b) Find the energy needed to remove a proton from this nucleus. (c ) Why are these energies different? Mass of ._(20)^(40)Ca =40.962278u , mass of proton =1.007825 u .

(a) Find the energy needed to remove a neutron from the nucleus of the calcium isotopes ._(20)^(42)Ca (b) Find the energy needed to remove a proton from this nucleus (c ) Why are these energies different ? Atomic masses of ._(20)^(41)Ca and ._(20)^(42)Ca are 40.962278 u and 41.958622 u respectively.