The population sizes of many animal species rise and fall over time. Suppose that the population size of a certain species can be modeled by the following function. p(t)=3350+1250 sin 1.5t In this equation, p (t) represents the total population size, and t is the time in years. Find the following. If necessary, round to the nearest hundredth. Period of p : years Frequency of p :cycles per year Minimum population size:

College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
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Chapter1: Units, Trigonometry. And Vectors
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The population sizes of many animal species rise and fall over time. Suppose that the population size of a certain species can be modeled by the following
function.
p(t)=3350+1250 sin 1.5t
In this equation, p (t) represents the total population size, and t is the time in years.
Find the following. If necessary, round to the nearest hundredth.
Period of p : years
Frequency of p :cycles per year
Minimum population size:
Transcribed Image Text:The population sizes of many animal species rise and fall over time. Suppose that the population size of a certain species can be modeled by the following function. p(t)=3350+1250 sin 1.5t In this equation, p (t) represents the total population size, and t is the time in years. Find the following. If necessary, round to the nearest hundredth. Period of p : years Frequency of p :cycles per year Minimum population size:
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