`.^(40)K` is an unusual isotope, in that it decays by negative beta emission, positive beta emission, and electron capture. Find the Q values for these decays.

During a negative beta decay,

During a negative beta decay,

Cu^(64)(" half life" =12.8 "hours" ) decay by beta^(c-)- emission (38%), beta^(o+)- emission(19%), and electron capture (43%) . Write the decay products and calculate partial half lives for each of the decay processes.

Give one example each of (a)alpha- emission, (b)beta^(c-)- emission, and (c)K- capture. Write an equation for these nuclear changes.

A radioactive material consists nuclides of 3 isotope which decay by alpha- emission, beta - emission and deuteron emission respectively. Their half lives are T_(1)=400sec,T_(2)=800sec and T_(3)=1600 sec respectively. At t=0, probability of getting alpha.beta and deuteron from radio nuclide are equal. If the probability of alpha emission at t = 1600 seconds is n/13, then find the value of .n. is _____

.^(23)Ne decays to .^(23)Na by negative beta emission. What is the maximum kinetic enerfy of the emitter electron ?

In radioactive decay process, the negatively changed emitted beta- particle are

._(83)^(214)Bi decays to A by alpha -emission . A then decays to B by beta emission , which further decays to C by another beta emission . Element C decays to D by still another beta emission , and D deacays by alpha -emission to form a stable isotope E. What is element E?

A radioactive element decays by beta -emission. A detector records n-beta particles in 2 s and in next 2 s it records 0.45 n beta particles. Find mean life.

A: In beta -decay an electron is emitted by the nucleus R: Electrons are not present inside the nucleus.