The half-life period of radon is 3.8 days. After how many will only one-twentieth of radon sample be left over?

The half-life period of radon is 3.8 days. After how many will only on

1.	The half-life period of radon is 3.8 days. After how many will only one-twentieth of radon sample be left over?
Answer» We know that `K = (0.693)/(t_(1//2)) = (0.693)/(3.8) = 0.182 day^(-1)` Let the initial amountd of radon be `N_(0)` and the amount left after `t` days be `N`d which is equal to `N_(0)//10`. Applying the equation, `t = (2.303)/(K) log (N_(0))/(N)` `t = (2.303)/(0.182) log (N_(0))/(N_(0)//10)` `= (2.303)/(0.182) log 10 = 12.65` days Alternatively, `(t_(1//2))/(t_(x%)) = (0.3)/(log(a)/(a - x))` `implies (3.8)/(t_(x%)) = (0.3)/(log((a)/((1)/(10))a)` or `(3.8)/(t_(x%)) = (0.3)/(log 10)` `:. t_(x%) = (3.80)/(0.3) = 12.65` days

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The half-life period of radon is 3.8 days. After how many will only one-twentieth of radon sample be left over?

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