Find the maximum energy that a beta particle can have in the following decay
`^176 Lu rarr ^176 Hf + e + vec v`.
Alomic mass of `^176 Lu` is `175.942694 u` and that of `^176 Hf` is `175.941420 u`.

Calculate the maximum kinetic energy of the beta particle emitted in the following decay scheme: N^12 rarr C^12 + e^(+)+v C^12 rarr C^12 + gamma(4.43 MeV). The atomic mass of N^12 is 12.018612 u.

Calculate the maximum kinetic energy of the bera particle emitted in the following decay scheme: ^12N rarr 12C **+e^(+)+v ^12C rarr ^12C + gamma(4.43 MeV). The atomic mass of 12N is 12.018612 u.

Th^228 emits an alpha particle to reduce to Ra^224 .Calculate the kinetic energy of the alpha particle emitted in the following decay: Th^228 rarr Ra^**+ alpha (Ra^224)^** rarr Ra^224+ gamma(217 keV) Atomic mass of Th^228 is 228.028726 u ,that of Ra^224 is 224.020196 u and that of He_2^4 is 4.00260 u.

Consider the beta decay ^198 Au rarr ^198 Hg ** + Beta^(-1) + vec v . where ^198 Hg^** represents a mercury nucleus in an excited state at energy 1.088 MeV above the ground state. What can be the maximum kinetic energy of the electron emitted? The atomic mass of ^198 Au is 197.968233 u and that of ^198 Hg is 197.966760 u .

Consider the beta decay ^198 Au rarr ^198 Hg ** + Beta^(-1) + vec v . where ^198 Hg^** represents a mercury nucleus in an excited state at energy 1.088 MeV above the ground state. What can be the maximum kinetic energy of the electron emitted? The atomic mass of ^198 Au is 197.968233 u and that of ^198 Hg is 197.966760 u .

Consider the beta decay ^198 Au rarr ^198 Hg ** + Beta^(-1) + vec v . where ^198 Hg^** represents a mercury nucleus in an excited state at energy 1.088 MeV above the ground state. What can be the maximum kinetic energy of the electron emitted? The atomic mass of ^198 Au is 197.968233 u and that of ^198 Hg is 197.966760 u .

^228Th emits an alpha particle to reduce to ^224Ra .Calculate the kinetic energy of the alpha particle emitted in the following decay: ^228Th rarr 224Ra**+ alpha 224Ra** rarr 224Ra+ gamma(217 keV). Atomic mass of 228Th is 228.028726 u,that of 224Ra is 224.020196 u and that of _2^4He is 4.00260 u.

Calculate the maximum energy that a beta particle can have in the following decay: ._(8)O^(19) to ._(9)F^(19)+._(-1)e^(0)+barnu Given, m(._(8)O^(19))=19.003576u, m(._(9)F^(19))=18.998403u, m(._(-1)e^(0))=0.000549u