A bacterial population is known to have a logistic growth pattern with initial population 1000 and an equilibrium population of 10,000. A count shows that at the end of 1 hr there are 2000 bacteria present. Determine the population as a function of time.

A First Course in Probability (10th Edition)
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ISBN:9780134753119
Author:Sheldon Ross
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Chapter1: Combinatorial Analysis
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For the population of Exercise, determine the time at which the population is increasing most
rapidly and draw a sketch of the logistic curve.
Exercise
A bacterial population is known to have a logistic growth pattern with initial population 1000 and
an equilibrium population of 10,000. A count shows that at the end of 1 hr there are 2000 bacteria
present. Determine the population as a function of time.
Transcribed Image Text:For the population of Exercise, determine the time at which the population is increasing most rapidly and draw a sketch of the logistic curve. Exercise A bacterial population is known to have a logistic growth pattern with initial population 1000 and an equilibrium population of 10,000. A count shows that at the end of 1 hr there are 2000 bacteria present. Determine the population as a function of time.
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