Two radioactive materials A & B have decay constant `3lamda` and `2lamda` respectively. At `t=0` the numbers of nuclei of A and B are `4N_(0)` and `2N_(0)` respectively then,A. Their number of radioactive nuclei will be equal at `t=(ln2)/(lamda)`B. Their decay rate will be equals at `t=(ln4)/(lamda)`C. Their decay rate will be equal at `t=(ln3)/(lamda)`D. At `t=(ln4)/(lamda)` the decay rate of A will be greater than that of B.

Two radioactive materials A & B have decay constant `3lamda` and `2lam

1.	Two radioactive materials A & B have decay constant `3lamda` and `2lamda` respectively. At `t=0` the numbers of nuclei of A and B are `4N_(0)` and `2N_(0)` respectively then,A. Their number of radioactive nuclei will be equal at `t=(ln2)/(lamda)`B. Their decay rate will be equals at `t=(ln4)/(lamda)`C. Their decay rate will be equal at `t=(ln3)/(lamda)`D. At `t=(ln4)/(lamda)` the decay rate of A will be greater than that of B.
Answer» Correct Answer - A::C When no. of nuclei or equal `4N_(0)e^(-3lamdat)=2N_(0)e^(2lamdat)` `impliest=(ln2)/(lamda)` when decay rate equal `3lamda4N_(0)e^(-3It)=2lamda2N_(0)e^(-2lamdat)` `t=(ln3)/(lamda)` at `t=(ln4)/(lamda)` decay rate of `A=(3lamda)(4N_(0))e^(-3lamda(ln4)/(lamda))` at `t=(ln4)/(lamda)` decay rate of `B=2lamda4N_(2)e^(-2lamda(ln4)/(lamda)`

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