`._(6)^(11) C` on decay produces:

Write symbolically the nuclear beta^(+) decay process of ._6C^(11) . Is the decayed product X an isotope or isobar of ._6C^(11) ? Given the mass values of (._6C^(11)) =11.011434u and m(X)=11.009305 u . Estimate the Q value in the process.

The half life of ""_(6)C""^(14) , if decay constant 6.31xx10^(-4) year^(-1) is

Which type of radioactive decay produces a daughter nucleus with a higher atomic number?

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.

The radioactive decay produces the species with fastest speed is

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 ) .

Carbon-II decays to boron-II according to the following formula. ._(6)^(11)Crarr ._(5)^(11)B+e^(+)+v_(e )+0.96 MeV Assume that positrons (e^(+)) produced in the decay combine with free electrons in the atmosphere and annihilate each other almost immediately. Also assume that the neutrinos (v_(e )) are massless and do not interact with the environment. At t = 0 we have 1 mu g of ._(6)^(12)C . If the half-life of the decay process is t_(0) , the net energy produced between time t = 0 and t=2t_(0) will be nearly -

A chemist prepares 1.00 g of pure ._(6)C^(11) . This isotopes has half life of 21 min, decaying by the equation: a. What is the rate of disintegration per second (dps) at starts ? b. What is the activity and specific activity of ._(6)C^(11) at start? c. How much of this isotope (._(6)C^(11)) is left after 24 hr its preparation?

A radioactive sample decays through two different decay processes alpha -decay and beta -decay is 6h . What will be the ratio of number of radioactive nuclei present after 6 h ?.