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A radioactive substance decays exponentially. A scientist begins with 140 milligrams of a radioactive substance. After 36 hours, 70 mg of the substance remains.How many milligrams will remain after 48 hours?

User EyfI
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1 Answer

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7 votes

The exponential decay formula is given as,


A=\text{ A}_0e^(-kt)

Where,


\begin{gathered} A_0\text{ = initial value = 140 mg} \\ A\text{ = Amount after t minutes.} \end{gathered}

At t = 36 hours, 70 mg remains.

Therefore,


\begin{gathered} 70\text{ = 140}*\text{ e}^(-k*36) \\ (70)/(140)\text{ = e}^(-36k) \\ (1)/(2)\text{ = e}^(-36k) \end{gathered}

Taking log on both sides,


\begin{gathered} ln((1)/(2))\text{ = ln\lparen e}^(-36k)) \\ ln((1)/(2))\text{ = -36k} \\ k\text{ = }(-ln(0.5))/(36) \\ k\text{ = }(-(-0.6931))/(36) \\ k\text{ = }(0.6931)/(36) \\ k\text{ = 0.0193} \\ \end{gathered}

After 48 hours, the amount remaining is calculated as.


\begin{gathered} A=\text{ 140 }*\text{ e}^(-0.0193*48) \\ A\text{ = 140 }*\text{ e}^(-0.9264) \\ A\text{ = 140 }*\text{ 0.3960} \\ A\text{ = 23.76 }\approx\text{ 24 milligrams.} \end{gathered}

Thus the amount remaining after 48 hours is approximately 24 milligrams.

User ZeroWorks
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