Consider the nuclear reaction `X^(200)toA^(110)+B^(80)+Q`. If the binding energy per nucleon for X, A and B are 7.4 MeV, 8.2 MeV and 8.1 MeV respectively, then the energy released in the reaction:

Consider the following nuclear reaction, X^200rarrA^110+B^90+En ergy If the binding energy per nucleon for X, A and B are 7.4 MeV, 8.2 MeV and 8.2 MeV respectively, the energy released will be

Consider the following nuclear reaction, X^200rarrA^110+B^90+En ergy If the binding energy per nucleon for X, A and B are 7.4 MeV , 8.2 MeV and 8.2 MeV respectively, the energy released will be

Consider the nuclear fission Ne^(20) rarr 2He + C^(12) .The binding energy per nucleon are 8.03 MeV, 7.07 MeV and 7.86 MeV respectively. identify the correct statement

A heavy nuleus having mass number 200 gets disintegrated into two small fragmnets of mass numbers 80 and 120 . If binding energy per nulceon for parent atom is 6.5 MeV and for daughter nuceli is 7 MeV and 8 MeV , respectivley , then the energy released in the decay will be.

A heavy nuleus having mass number 200 gets disintegrated into two small fragmnets of mass numbers 80 and 120 . If binding energy per nulceon for parent atom is 6.5 MeV and for daughter nuceli is 7 MeV and 8 MeV , respectivley , then the energy released in the decay will be.

The energy of the reaction Li^(7)+prarr2He^(4) is ( the binding energy per nucleon in Li^(7) and He^(4) nuclei are 5.60 and 7.60 MeV respectively.)

Binding energy of ""_2He^4 and ""_3Li^7 are 27.37 MeV and 39.3 MeV respectively. Which of the two nuclei is more stable ?

The binding energy per nucleon is maximum at A=56 and its value is around ____ Mev/ Nucleon

The binding energy per nucleon for C^(12) is 7.68 MeV and that for C^(13) is 7.47 MeV. What is the energy required to remove a neutron from C^(13) ?

If the binding energy per nucleon of deuterium is 1.115 MeV, its mass defect in atomic mass unit is