Suppose a population is growing by 8% each year. How many years will it take the population to double?

Question

asked Jul 22, 2023 167k views

1 Answer

Ibrahim Ahmed · Answer 1 · 2023-07-29T18:42:26+0000

ANSWER

$\text{9 years}$

Step-by-step explanation

We want to find the number of years that it will take the population to double.

To do this, we have to apply the exponential growth function:

where y = final value

a = initial value

r = rate of growth

t = time (in years)

For the population to double, it means that the final value must be 2 times the initial value:

Substitute the given values into the function above:

$\begin{gathered} 2a=a(1+(8)/(100))^t \\ (2a)/(a)=(1+0.08)^t=1.08^t \\ 2=1.08^t \end{gathered}$

To solve further, convert the function from an exponential function to a logarithmic function as follows:

$\log _(1.08)2=t$

Solve for t:

$\begin{gathered} (\log _(10)2)/(\log _(10)1.08)=t \\ \Rightarrow t=9\text{ years} \end{gathered}$

It will take 9 years for the population to double.