The ratio of strontium-90 remaining, p , as a function of years, t , since the nuclear accident is [tex]\boxed{p = {{0.975}^t}}.[/tex]
Further explanation:
The exponential decay formula can be expressed as follows,
[tex]\boxed{y = a{{\left( {1 - r} \right)}^x}}[/tex]
Here, a represents the initial amount, y is the final amount,r is the rate of decay, and x represents the time.
Given:
The rate of decay is [tex]2.5\%.[/tex]
Explanation:
Consider the initial amount of the radioactive substance be [tex]A[/tex].
The final amount of the radioactive substance is [tex]{{Ap}}[/tex]
The ratio of decay can be obtained as follows,
[tex]\begin{aligned}{\text{A}}p &= {\text{A}}{\left( {1 - r} \right)^t}\\p&= \frac{{{\text{A}}{{\left( {1 - r} \right)}^t}}}{{\text{A}}}\\p&= {\left( {1 - 0.025} \right)^t}\\p&= {0.975^t}\\\end{aligned}[/tex]
The ratio of strontium-90 remaining, [tex]p[/tex] , as a function of years,[tex]t[/tex], since the nuclear accident is [tex]\boxed{p = {{0.975}^t}}.[/tex]
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Answer details:
Grade: High School
Subject: Mathematics
Chapter: Exponential decay
Keywords: twenty percent, contaminants, nuclear accident, Chernobyl, strontium-90, exponentially, 2.5% per year, ratio of strontium, p, function of time, radioactive substance, decays, ten years, each year, rate of decay each year, substance.
