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न्यूट्रॉन पृथक्क़रण ऊर्जा (Separation ene...

न्यूट्रॉन पृथक्क़रण ऊर्जा (Separation energy) परिभाषा के अनुसार, वह ऊर्जा है जो किसी नाभिक से एक न्यूट्रॉन को निकालने के लिए आवश्यक होती है। नीचे दिए गए आँकड़ों का इस्तेमाल करके `""_(20)^(41)Ca` एवं `""_(13)^(27)Al` नाभिकों की न्यूट्रॉन पृथक्करण ऊर्जा ज्ञात कीजिए -
`m(""_(20)^(40)Ca)=39.962591u`
`m(""_(20)^(41)Ca)=40.962278u`
`m(""_(13)^(26)Al)=25.986895u`
`m(""_(13)^(27)Al)=26.981541u`.

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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) = 39.962591u 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)^(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 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

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

Calculate the energy required to separate a neutron (neutron separation energy) from the nucleus ._(20)^(41)Ca . Given r.m. of ._(20)^(41)Ca=40.962278 U , r.m of ._(20)^(40)Ca=39.962591U , r.m. of .^(1)n=1.00867 U .