Problem 2. A model of seasonal growth posits that a population grows at a periodic rate: dP = kP cos(rt – 0) dt One application of an equation like this is for a population in an environment that changes periodically (e.g. seasonal changes in food availability). (a) Find the general solution to this differential equation. (b) Using a computer, graph some solutions of the differential equation for different values of k, r, and 0 (try with positive, negative, or zero, for example). Sketch these graphs. How does changing k, r, or 0 affect the general solution?

Advanced Engineering Mathematics
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ISBN:9780470458365
Author:Erwin Kreyszig
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Chapter2: Second-order Linear Odes
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part a and part b.

Problem 2. A model of seasonal growth posits that a population grows at a periodic rate:
dP
kP cos(rt – 0)
dt
One application of an equation like this is for a population in an environment that changes periodically (e.g. seasonal
changes in food availability).
(a) Find the general solution to this differential equation.
(b) Using a computer, graph some solutions of the differential equation for different values of k, r, and 0 (try with
positive, negative, or zero, for example). Sketch these graphs. How does changing k, r, or 0 affect the general
solution?
Transcribed Image Text:Problem 2. A model of seasonal growth posits that a population grows at a periodic rate: dP kP cos(rt – 0) dt One application of an equation like this is for a population in an environment that changes periodically (e.g. seasonal changes in food availability). (a) Find the general solution to this differential equation. (b) Using a computer, graph some solutions of the differential equation for different values of k, r, and 0 (try with positive, negative, or zero, for example). Sketch these graphs. How does changing k, r, or 0 affect the general solution?
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