Answer :
The exponential equation A(t) = Aoekt models the population of insects over time. In this case, the initial population at the beginning of a time interval is given as 3700, and this value is represented by Ao in the equation.
The exponential equation A(t) = Aoekt is commonly used to describe population growth or decay over time. In this equation, A(t) represents the population at a specific time t, Ao is the initial population at the start of the time interval, k is the growth or decay rate, and t is the elapsed time.
Given that the population of insects is 3700 at the beginning of the time interval, we can substitute this value for Ao in the equation. The equation becomes A(t) = 3700ekt.
By solving for specific values of k and t or by fitting the equation to observed data, we can estimate the growth or decay rate and predict the population of insects at any given time within the time interval. This exponential model allows us to understand and analyze the dynamics of the insect population and make projections for future population sizes.
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