Question

If 250 mg of a radioactive element decays to 220 mg in 12 hours, how do you find the half-life of the element?

Answer 1

Half-life `=65.0672\ \text{hrs}`

Explanation:

The amount `N` of a radioactive element left after time `t` while initial amount is `N_0` is given as

`{dN}/dt\propN`

`{dN}/N=-kdt\quad (\text{since N decreases w.r.t. time}\ t)`

`\int_{N_0}^N {dN}/N=-k\int_0^t dt`

`N=N_0e^{-kt}`

where, `k` is a constant

As per given data, the `N_0=250\ mg` of a radioactive element decays to `N=220\ mg` in time `t=12\ \text{hrs}` then we have

`220=250e^{-k(12)}`

`k=1/12\ln(250/220)`

If `t_{\text{1/2}}` is half life of radioactive element then its amount becomes `N_0/2` in one half line hence we have

`N_0/2=N_0e^{-k(t_{\text{1/2}})}`

`kt_{\text{1/2}}=\ln 2`

setting the value of `k` we have

`1/12\ln(250/220)t_{\text{1/2}}=\ln2`

`t_{\text{1/2}}=\frac{12\ln 2}{\ln(250/220)}`

`=65.0672\ \text{hrs}`