Consider a nuclear decay process `A rarr B rarr C (stable)`
At a certain time, the activity of nuclei A is 'x' and the nett rate of increase of number of nuclei B is 'y' The activity of nuclei B at this instant is :

A radionuclide is produced at constant rate 'q' having half life T . Find time after which activity of nuclei will be A , if initially number of nuclei were zero.

A radio nuclide X is produced at constant rate alpha . At time t=0 , number of nuclei of X are zero. Find (a) the maximum number of nuclei of X. the number of nuclei at time t. Decay constant of X is lambda .

The rate at which a particular decay process occurs in a radio sample, is proportional to the number of radio active nuclei present . If N is the number of radio active nuclei present at some instant, the rate of change of N is "dN"/"dt"=-lambdaN . Consider radioactive decay of A to B which may further decay either to X or to Y, lambda_1, lambda_2 and lambda_3 are decay constants for A to B decay , B to X decay and B of Y decay respectively. if at t=0 number of nuclei of A,B , X and Y are N_0, N_0 ,zero and zero respectively and N_1 , N_2, N_3,N_4 are number of nuclei A,B , X and Y at any instant. The number of nuclei of B will first increase then after a maximum value, it will decreases, if

The rate at which a particular decay process occurs in a radio sample, is proportional to the number of radio active nuclei present . If N is the number of radio active nuclei present at some instant, the rate of change of N is "dN"/"dt"=-lambdaN . Consider radioactive decay of A to B which may further decay either to X or to Y, lambda_1, lambda_2 and lambda_3 are decay constants for A to B decay , B to X decay and B of Y decay respectively. if at t=0 number of nuclei of A,B , X and Y are N_0, N_0 ,zero and zero respectively and N_1 , N_2, N_3,N_4 are number of nuclei A,B , X and Y at any instant. Rate of accumulation of B of any instant will be

The rate at which a particular decay process occurs in a radio active sample, is proportional to the number of radio active nuclei present. If N is the number of radio active nuclei present at some instant, the rate of change of N is (dN)/(dt) = - lambdaN . Consider radioavtive decay of A to B which may further decay, either to X or to Y, lambda_(1),lambda_(2) and lambda_(3) are decay constants for A to B decay, B to X decay and B of Y decay respectively. If at t = 0 number of nuclei of A, B, X and Y are N_(0), N_(0) , zero and zero respectively and N_(1),N_(2),N_(3),N_(4) are number of nuclei A,B,X and Y at any intant. At t = oo , which of the following is incorrect ?

The rate at which a particular decay process occurs in a radio sample, is proportional to the number of radio active nuclei present . If N is the number of radio active nuclei present at some instant, the rate of change of N is "dN"/"dt"=-lambdaN . Consider radioactive decay of A to B which may further decay either to X or to Y, lambda_1, lambda_2 and lambda_3 are decay constants for A to B decay , B to X decay and B of Y decay respectively. if at t=0 number of nuclei of A,B , X and Y are N_0, N_0 ,zero and zero respectively and N_1 , N_2, N_3,N_4 are number of nuclei A,B , X and Y at any instant. At t=oo , which of the following is incorrect ?

Half-life of radio active element A is 30 min while B is 20 min. Calculate ratio of number of nuclei decayed of A B after 60 min

Two radioactive substances have half-lives T and 2T. Initially, they have equal number of nuclei. After time t=4T , the ratio of their number of nuclei is x and the ratio of their activity is y. Then,

A certain radioactive element disintegration with a decay constant of 7.9 xx 10^(-10) sec. At a given instant of time, if the activity of the sample is equal to 55.3 xx 10^(11) disintegration/sec, then number of nuclei at that instant of time.