Consider the growth of a population p(t). It starts out with p(0) = A. Suppose the growth is unchecked, and hence p = kp for some constant k. Then p(t) = Of course populations don't grow forever....

Consider the growth of a population p(t). It starts out with p(0) = A. Suppose the growth is unchecked, and hence<br>p = kp<br>for some constant k.<br>Then p(t) =<br>Of course populations don't grow forever. Let's say there is a stable population size Q that p(t) approaches as time passes. Thus the speed at which the<br>population is growing will approach zero as the population size approaches Q. One way to model this is via the differential equation<br>p = kp(Q - p), p(0) = A.<br>The solution of this initial value problem is p(t) =<br>Hint: Proceed as in the last problem.<br>Submit answer<br>Answers (in progress)<br>Answer<br>Score<br>

Extracted text: Consider the growth of a population p(t). It starts out with p(0) = A. Suppose the growth is unchecked, and hence p = kp for some constant k. Then p(t) = Of course populations don't grow forever. Let's say there is a stable population size Q that p(t) approaches as time passes. Thus the speed at which the population is growing will approach zero as the population size approaches Q. One way to model this is via the differential equation p = kp(Q - p), p(0) = A. The solution of this initial value problem is p(t) = Hint: Proceed as in the last problem. Submit answer Answers (in progress) Answer Score

Jun 04, 2022

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Consider the growth of a population p(t). It starts out with p(0) = A. Suppose the growth is unchecked, and hence p = kp for some constant k. Then p(t) = Of course populations don't grow forever....

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