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Question

Radioactive material 'A' has decay constant '8λ' and material 'B' has decay constant 'λ'. Initially they have same number of nuclei. After what time, the ratio of number of nuclei of material 'B' to that 'A' will be 1e?

A
19λ
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B
1λ
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C
17λ
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D
18λ
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Solution

The correct option is C 17λ

As number of nuclei N=N0eλt
Where λ is the decay constant and No is the initial number of nuclei
Given, initialy the number of nuclei are same so, NA0=NB0=N0 andNBNA=1e

For A, NA=N0e(8λ)t(1)
For B, NB=N0eλt(2)

Dividing eq.(2) by eq.(1)
e1=eλte8λt
e7λt=e1
7λt=1
t=17λ
So, the best option is t=17λ
There is slight error in the question, since the decay constent of material A is greater than material B. Hence the ratio of number of nuclie of material B to that of A is always greater than 1, but it is given less then 1 (1e).


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