Solving a Half-Life Physics Problem: Estimating Radon-222 Atom Decay in 12 Days

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Radon-222 has a half-life of 3.82 days, meaning that every 3.82 days, half of the radon atoms decay. To estimate how many atoms remain after 12 days, one must first determine how many half-lives fit into 12 days, which is approximately 3.14 half-lives. After each half-life, the number of remaining atoms is halved, so after 12 days, the calculation involves dividing the initial amount of 4.5*10^8 by 2 raised to the power of the number of half-lives. This results in approximately 4.5*10^8 / 2^3, yielding a final estimate of the remaining radon atoms. Understanding the concept of half-lives is crucial for solving decay problems like this one.
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Radon-222 is a radioactive gas with a half-life of 3.82 days. A gas sample contains 4.5*10^8 radon atoms initially.
Estimate how many radon atoms will remain after 12 days.
This Is what i have done:
3.82 days=3.82*24*60*60=330048seconds
what's next?
 
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12 days is how many half-lives? What does half-life mean? How much is left after one half-life? Two half-lives?
 
You don't need seconds. After one half-life, you're dividing by 2. If you determine how many half-lifes are in 12 days, you'll know how many times to divide by 2.

As an example, if you divided by 2 twice, you would have:

\frac{4.5 \ast 10^8}{2 \ast 2}

or

\frac{4.5 \ast 10^8}{2^2}

If dividing by 2 three times:

\frac{4.5 \ast 10^8}{2 \ast 2 \ast 2}

or

\frac{4.5 \ast 10^8}{2^3}

The power in the denominator is however many times you want to divide by 2 and doesn't have to be an integer.
 
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