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Ben consumes an energy drink that contains caffeine. After consuming the energy drink, the amount of caffeine in Ben's body decreases exponentially. The 10-hour decay factor for the number of mg of caffeine in Ben's body is 0.2722. What is the 5-hour growth/decay factor for the number of mg of caffeine in Ben's body

User Kasual
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Answer:

The 5-hour decay factor for the number of mg of caffeine in Ben's body is of 0.1469.

Explanation:

After consuming the energy drink, the amount of caffeine in Ben's body decreases exponentially.

This means that the amount of caffeine after t hours is given by:


A(t) = A(0)e^(-kt)

In which A(0) is the initial amount and k is the decay rate, as a decimal.

The 10-hour decay factor for the number of mg of caffeine in Ben's body is 0.2722.

1 - 0.2722 = 0.7278, thus,
A(10) = 0.7278A(0). We use this to find k.


A(t) = A(0)e^(-kt)


0.7278A(0) = A(0)e^(-10k)


e^(-10k) = 0.7278


\ln{e^(-10k)} = ln(0.7278)


-10k = ln(0.7278)


k = -(ln(0.7278))/(10)


k = 0.03177289938

Then


A(t) = A(0)e^(-0.03177289938t)

What is the 5-hour growth/decay factor for the number of mg of caffeine in Ben's body?

We have to find find A(5), as a function of A(0). So


A(5) = A(0)e^(-0.03177289938*5)


A(5) = 0.8531

The decay factor is:

1 - 0.8531 = 0.1469

The 5-hour decay factor for the number of mg of caffeine in Ben's body is of 0.1469.

User Ganesh Jadhav
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