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The formula A=23.1e0.0152t models the population of a US state, A, in millions, t years after 2000. Determine algebraically when the population was predicted to reach 28.3 million.

The formula A=23.1e0.0152t models the population of a US state, A, in millions, t-example-1
User Moxley Stratton
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1 Answer

16 votes
16 votes

The given equation is


A=23.1e^(0.0152t)

Where A is the population from 2000 in t years

since the population in t years is 28.3 million, then

Substitute A by 28.3 to find t


28.3=23.1e^(0.0152t)

Divide both sides by 23.1


\begin{gathered} (28.3)/(23.1)=(23.1)/(23.1)e^(0.0152t) \\ (283)/(231)=e^(0.0152t) \end{gathered}

Insert ln for both sides


\ln ((283)/(231))=\ln (e^(0.0152t))

Use the rule


\ln (e^n)=n
\ln ((283)/(231))=0.0152t

Divide both sides by 0.0152 to find t


\begin{gathered} (\ln ((283)/(231)))/(0.0152)=(0.0152t)/(0.0152) \\ 13.35718336=t \end{gathered}

Round it to the nearest year, then

t = 14

Add 14 to 2000 to find the year

2000 + 14 = 2014, then

The population was 28.3 million at 2014

User Prajwal Udupa
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