The radionuclide `""^(11)C` decays according to
`""_(6)^(11)Cto ""_(5)^(11) B+e^(+)+V: T_(1//2)=20.3min`
he maximum energy of the emitted positron is 0.960 MeV. Given the mass values:
`m(""_(6)^(11)C)=11.00434 u and m(""_(6)^(11)B)=11.009305 u`
calculate Q and compare it with the maximum energy of the positron emitted

The radionuclide ""^(11)C decays according to ""_(6)^(11)C to ""_(5)^(11) B + e^(+) + v, T_(1//2) = 20.3 min The maximum energy of the emitted positron is 0.960 MeV. Given the mass values: m ( ""_(6)^(11)C) = 11.011434 u and m (""_(6)^(11)B ) = 11.009305 u, calculate Q and compare it with the maximum energy of the positron emitted.

The radionuclide ""^(11)C decays according to ""_(6)^(11)C to ""_(5)^(11) B + e^(+) + v, T_(1//2) = 20.3 min The maximum energy of the emitted positron is 0.960 MeV. Given the mass values: m ( ""_(6)^(11)C) = 11.011434 u and m (""_(6)^(11)B ) = 11.009305 u, calculate Q and compare it with the maximum energy of the positron emitted.

The radionuclide ""^(11)C decays according to ""_(6)^(11)C to ""_(5)^(11)B + e^(+) + upsilon, T_(1//2) = 20.3 min The maximum energy of the emitted positron is 0.960 MeV. Given the mass values: m(""_6^11C) = 11.011434 u and m(""_6^11B) = 11.009305u . Calculate Q and compare it with the maximum energy of the positron emitted.

The radionuclide "^11C decays according to "_6^11C rarr "_5^11B + e^+ + v : T_(1/2) = 20.3 min .The maximum energy of the emitted positron is 0.960 MeV. Given the mass values: m ( "_6^11C ) = 11.011434 u and m ( "_6^11B ) = 11.009305 u, calculate Q and compare it with the maximum energy of the positron emitted.

The radionuclide ._6C^(11) decays according to ._6C^(11)to ._5B^(11) +e^(+) +v : half life =20.3min. The maximum energy of the emitted positron is 0.960 MeV . Given the mass values m(._6C^(11))=11.011434u, m(._6B^(11))=11.009305u Calculate Q and compare it with maximum energy of positron emitted.