How long will it take for 3/4 of the sample of 131 iodine that has half-life of 8.1 days?

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How long will it take for 3/4 of the sample of 131 iodine that has half-life of 8.1 days?

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Answer 1 · 2015-02-14T13:58:23

Since you didn't specify whether 3/4 of the sample remains or undergoes decay, I'll show you both cases.

Here's the equation for exponential decay used in nuclear half-life calculations

$A (t) = A_{0} \cdot {(\frac{1}{2})}^{\frac{t}{t_{1/2}}}$ $A(t) = A_0 * (1/2)^(t/t_("1/2"))$ , where

$A (t)$ $A(t)$ - the amount left after t years;
$A_{0}$ $A_0$ - the initial quantity of the substance that will undergo decay;
$t_{1/2}$ $t_("1/2")$ - the half-life of the decaying quantity.

First case - 3/4 of the sample undergoes radioactive decay.

If 3/4 of the sample undergoes radioactive decay, you wil be left with 1/4 of the original sample. This means that $A (t)$ $A(t)$ will be equal to $A_{0} (t) \cdot \frac{1}{4}$ $A_0(t) * 1/4$ . Plug this into the above equation and you'll get

$A_{0} (t) \cdot \frac{1}{4} = A_{0} (t) \cdot {(\frac{1}{2})}^{\frac{t}{t_{1/2}}}$ $A_0(t) * 1/4 = A_0(t) * (1/2)^(t/t_("1/2"))$ , or $\frac{1}{4} = {(\frac{1}{2})}^{\frac{t}{t_{1/2}}}$ $1/4 = (1/2)^(t/t_("1/2"))$

This implies that $\frac{t}{t_{1/2}} = 2$ $t/t_("1/2") = 2$ , since $\frac{1}{4} = {(\frac{1}{2})}^{2}$ $1/4 = (1/2)^2$ .

Therefore, $t = 2 \cdot t_{1/2} = 2 \cdot 8.1 = 16.2 days$ $t = 2 * t_("1/2") = 2 * 8.1 = "16.2 days"$

It will take 16.2 days for 3/4 of your sample to undergo radioactive decay.

Second case - 3/4 of the sample remains, i.e. does not undergo radioactive decay.

The same principle applies in this case as well, only this time 1/4 of the sample will decay and 3/4 will remain. This means that $A (t) = A_{0} (t) \cdot \frac{3}{4}$ $A(t) = A_0(t) * 3/4$ . So,

$A_{0} (t) \cdot \frac{3}{4} = A_{0} (t) \cdot {(\frac{1}{2})}^{\frac{t}{t_{1/2}}}$ $A_0(t) * 3/4 = A_0(t) * (1/2)^(t/t_("1/2"))$ , or $\frac{3}{4} = {(\frac{1}{2})}^{\frac{t}{t_{1/2}}}$ $3/4 = (1/2)^(t/t_("1/2"))$

As a result,

$\frac{t}{t_{1/2}} = {log}_{(1/2)} (\frac{3}{4}) = 0.415$ $t/t_("1/2") = log_(("1/2"))(3/4) = 0.415$

$t = 0.415 \cdot t_{1/2}$ $t = 0.415 * t_("1/2")$

$t = 0.415 \cdot 8.1 = 3.36 days$ $t = 0.415 * 8.1 = "3.36 days"$

It will take 3.36 days for 1/4 of the sample to undergo radioactive decay.

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How long will it take for 3/4 of the sample of 131 iodine that has half-life of 8.1 days?

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