The isotope (5)^(12) B having a mass 12....

The isotope `_(5)^(12) B` having a mass `12.014 u undergoes beta - decay to _(6)^(12) C _(6)^(12) C `has an excited state of the nucleus `( _(6)^(12) C ^() at 4.041 MeV` above its ground state if `_(5)^(12)E decay to _(6)^(12) C ^() ` , the maximum kinetic energy of the `beta - particle `in unit of `MeV is (1 u = 931.5MeV//c^(2)` where is the speed of light in vacume ) .

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The isotope _(5)^(12) B having a mass 12.014 u undergoes beta - decay to _(6)^(12) C _(6)^(12) C has an excited state of the nucleus ( _(6)^(12) C ^(**) at 4.041 MeV above its ground state if _(5)^(12)E decay to _(6)^(12) C ^(**) , the maximum kinetic energy of the beta - particle in unit of MeV is (1 u = 931.5MeV//c^(2) where c is the speed of light in vaccuum) .

The isotope (5)^(12) B having a mass 12.014 u undergoes beta - decay to _(6)^(12) C _(6)^(12) C has an excited state of the nucleus ( _(6)^(12) C ^(**) at 4.041 MeV above its ground state if _(5)^(12)E decay to _(6)^(12) C ^(**) , the maximum kinetic energy of the beta - particle in unit of MeV is (1 u = 931.5MeV//c^(2) where c is the speed of light in vaccuum) .

.^(12)N beta decays to an excited state of .^(12)C , which subsequenctly decays to the ground state with the emission of a 4.43 -MeV gamma ray. What is the maximum kinetic energy of the emitted beta particle?

.^(12)N beta decays to an ecited state of .^(12)C , which subsequenctly decays to the ground state with the emission of a 4.43 -MeV gamma ray. What is the maxium kinetic energy of the emitted beta particle?

Number of atoms in 12 g of ""_(6)^(12) C is :

A nucleus of mass 218 amu in Free State decays to emit an alpha -particle. Kinetic energy of the beta- particle emitted is 6.7 MeV . The recoil energy (in MeV) of the daughter nucleus is

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