A) What will be the rate of change of the population in 10 years.
[tex]\begin{gathered} \text{Get the derivative of the }P(t)\text{ with respect to }t \\ \frac{dP}{dt}(50e^{0.02t})=50(0.02)e^{0.02t} \\ \frac{dP}{dt}(50e^{0.02t})=e^{0.02t} \end{gathered}[/tex]Substitute t = 10, to the derivative of P(t)
[tex]\begin{gathered} P^{\prime}(t)=e^{0.02t} \\ P^{\prime}(10)=e^{0.02(10)} \\ P^{\prime}(10)=e^{0.2} \\ P^{\prime}(10)=e^{0.2} \\ P^{\prime}(10)=1.02020134 \\ \\ \text{Round off to two decimal place} \\ P^{\prime}(10)=1.02 \end{gathered}[/tex]Therefore, the rate of change of the population in 10 years is 1.02 million.
B) What will be the relative rate of the population in t years? Is this rate constant?
[tex]\begin{gathered} \text{The relative rate of the population in t years is the first derivative of }P(t) \\ P^{\prime}(t)=e^{0.02t} \end{gathered}[/tex]The rate is not constant, as it depends on how much time t has passed.
