Nuclei of radioactive element `A` are produced at rate `t^(2)` (where `t` is time) at any time `t`. The element `A` has decay constant `lambda`. Let `N` be the number of nuclei of element `A` at any time `t`. At time `t=t_(0), dN//dt` is minimum. The number of nuclei of element `A` at time `t=t_(0)` is

Nuclei of a radioactive element A are being produced at a constant rate alpha . The element has a decay constant lambda . At time t=0, there are N_0 nuclei of the element . The number N of nuclei of A at time t is

Nuclei of radioactive element A are being produced at a constant rate. alpha . The element has a decay constant lambda . At time t=0 , there are N_(0) nuclei of the element. (a) Calculate the number N of nuclei of A at time t. (b) IF alpha =2 N_(0) lambda , calculate the number of nuclei of A after one half-life time of A and also the limiting value of N at t rarr oo .

Nuclei of a radioactive element A are being produced at a constant rate alpha . The element has a decay constant lambda . At time t=0 , there are N_0 nuclei of the element. (a) Calculate the number N of nuclei of A at time t. (b) If alpha=2N_0lambda , calculate the number of nuclei of A after one half-life of A, and also the limiting value of N as trarroo .

Nuclei of a radioactive element 'A' are being produced at a constant rate, alpha . The element has a decay constant, lambda . At time, t = 0, there are N_(0) nuclei of the element. If alpha = 4N_(0)lambda , the number of nuclei of A when A has reached steady state:

Nuclei of a radioactive element 'A' are being produced at a constant rate, alpha . The element has a decay constant, lambda . At time, t = 0, there are N_(0) nuclei of the element. If alpha = 2N_(0)lambda the number of nuclei of A after one half life of A becomes

Nuclei of a radioactive A are being produceted at a constant rate a . The electro has a decay constant lambda . At time t = 0 there are N_(0) nucleius of the element . (a) calculate the number N of nuclei of A at same t (b) if a = 2N_(0) lambda) calculate the number of nuclei of A after one half - life of A and the limiting value of N as t rarr oo

Nuclei of a radioactive element X are being produced at a constant rate K and this element decays to a stable nucleus Y with a decay constant lambda and half-life T_(1//3) . At the time t=0 , there are N_(0) nuclei of the element X. The number N_(Y) of nuclei of Y at time t is .