The binding energy per nucleon for `._(6)C^(12) is 7.68 MeV//N` and that for `._(6)C^(13) is 7.47MeV//N`. Calculate the energy required to remove a neutron form `._(6)C^(13)`

The binding energy per nucleon for C^(12) is 7.68 MeV and that for C^(13) is 7.5 MeV. The energy required to remove a neutron from C^(13) is

The binding energy per nucleon of ._(5)B^(10) is 8.0 MeV and that of ._(5)B^(11) is 7.5 MeV. The energy required to remove a neutron from ._(5)B^(11) is (mass of electron and proton are 9.11xx10^(31) kg and 1.67xx10^(27) kg, respectively)

The binding energy per nucleon of ._(5)B^(10) is 8 MeV and that of ._(5)B^(11) is 7.5 MeV. The energy required to remove a neutron from ._(5)B^(11) is (mass of electron and proton are 9.11 xx 10^(-21) kg and 1.67 xx 10^(-27) kg respectively.

Binding energy per nucleon for C^(12) is 7.68 MeV and for C^(13) is 7.74 MeV . The energy required to remove a neutron from C^(13) is .

The binding energy per nucleon of O^16 is 7.97 MeV and that of O^17 is 7.75 MeV . The energy (in MeV) required to remove a neutron from O^17 is.

The binding energy per nucleus of ""_(8)O^(17) is 7.75 MeV. The energy required to remove one neutron from ""_(8)O^(17) is…………… MeV.

The binding energy per nucleon for ""_(1)H^(2) and ""_(2)He^(4) are 1.1 MeV and 7.1 MeV respectively. The energy released when two ""_(1)H^(2) to form ""_(2)He^(4) is ………….. MeV.

Assume the binding energy per nucleon for deuteron (1)H^(2) and Helium (2)He^(4) is 1.1MeV and 7.1MeV respectively.The energy released (in "MeV ) when two deuterons fuse to form a helium nucleus is "n" .Then "n" is