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The neutron separation energy is defined...

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)=39.962591 u`
` m( ""_(20)^(40)Ca ) = 39.962591 u`
`m( ""_(20)^(41)Ca ) = 40.962278 u`
` m( ""_(13)^(26) Al ) = 25.986895 u`
`m( ""_(13)^(27) Al ) = 26.981541 u`

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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) = 39.962591 u m(""_(20)^(41)Ca) = 40.962278 u m(""_(13)^(26)Al) = 25.986895 u m (""_(13)^(27)Al) = 26.981541 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) = 39.962591 u m(""_(20)^(41)Ca) = 40.962278 u m(""_(13)^(26)Al) = 25.986895 u m (""_(13)^(27)Al) = 26.981541 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 .

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)=39.962591 u m(._(20)^(41)Ca)=40.962278 u m(._(13)^(26)Al)=25.986895 u m(._(13)^(27)Al)=26.981541 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 "_20^41Ca and "_13^27Al from the following data: m( "_20^40Ca ) = 39.962591 u m( "_20^41Ca )= 40.962278 u m( "_13^26Al ) = 25.986895 u m( "_13^27Al ) = 26.981541 u

The neutron separation energy is defined to be the energy required to remove a neutron form nucleus. Obtain the neutron separation energy of the nuclei ._(20)Ca^(41) and ._(13)Al^(27) from the following data : m(._20Ca^(40))=39.962591u and m(._(20)Ca^(41))=40.962278u m(._(13)Al^(26))=25.986895u and m(._(13)Al^(27))=26.981541u

The neutron separation energy is defined to be the energy required to remove a neutron form nucleus. Obtain the neutron separartion energy of the nuclei ._(20)Ca^(41) and ._(13)Al^(27) form the following data : m(._20Ca^(40))=39.962591u and m(._(20)Ca^(41))=40.962278u m(._(13)Al^(26))=25.986895u and m(._(13)Al^(27))=26.981541u