Two radioactive substances A and B have ...

Two radioactive substances A and B have decay constants `5lambda` and `lambda` respectively. At t=0 , they have the same number of nuclei. The ratio of number of nuclei of A of those of B will be `(1//e)^2` after a time interval

`(1)/(4lamda)`

`4lamda`

`2lamda`

`(1)/(2lamda)`

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The correct Answer is:

(d) number of nuclei remained after time t can be written as
`N=N_(o)e^(-lamdat)`
where ,`N_(0)` is initial number of nuclei of both the substances
`N_(1)=N_(0)e^(-5lamdat) `
`and N_(2)= N_(0)e^(-lamdat) `
On dividing Eq (i) by eq (ii) we get
`(N_(1))/(N_(2))=e^((-5lamda +lamda )it =e^(-4lamda t)=(1)/(e^(4lamda t )`
But , we have given
`(N_(1))/(N_(2))=((1)/(e))^(2)=(1)/(e^(2))`
comparing the power , we get
`2=4lamda t implies t=(2)/(4lamda )=(1)/(2lamda)`

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