Atomic mass of `._(3)^(7)Li` is 7.01600u and that of `._(4)^(7)Be` is 7.01693u. Mass of one electron in atomic mass unit is 0.00055 u. if it is observed that `._(4)^(7)Be` decays into `._(3)^(7)Li`, what kind of decay will it be?

What is the relation between unified atomic mass unit (u) and electron unit ?

The binding energy per nucleon for ._(3)Li^(7) will be, if the mass of ._(3)Li^(7) is 7.0163 a.m.u.

You are given that mass of ""_(3)^7Li = 7.0160 u, Mass of ""_(2)^(4)He = 4.0026 u and Mass of ""_(1)^(1)H = 1.0079 u When 20 g of ""_(3)^(7)Li is converted into ""_(2)^(4)He by proton capture , the energy liberated , (in kWh) , is : [ Mass of nucleon = 1 GeV//c^2) ]

You are given that mass of ""_(3)^7Li = 7.0160 u, Mass of ""_(2)^(4)He = 4.0026 u and Mass of ""_(1)^(1)H = 1.0079 u When 20 g of ""_(3)^(7)Li is converted into ""_(2)^(4)He by proton capture , the energy liberated , (in kWh) , is : [ Mass of nucleon = 1 GeV//c^2) ]

The mass of proton is 1.0073 u and that of neutron is 1.0087 u ( u=atomic mass unit ). The binding energy of ._2^4He , if mass of ._2^4He is 4.0015 u is

The mass of proton is 1.0073 u and that of neutron is 1.0087 u ( u=atomic mass unit ). The binding energy of ._2^4He , if mass of ._2^4He is 4.0015 u is

The mass of a ._(3)^(7) Li nucleus is 0.042 u less than the sum of the masses of all its nucleons. The binding energy per nucleon of ._(3)^(7)Li nucleus is nearly