The number of students in a cafeteria is modeled by the function P that satisfies the logistic differential equation P (200 P), where tis the time in seconds and A0)- 25 What is the greatest rate of change, in students per second, of the number of students in the cafeteria? Submt 25 100 D 200

Linear Algebra: A Modern Introduction
4th Edition
ISBN:9781285463247
Author:David Poole
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Chapter6: Vector Spaces
Section6.7: Applications
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Question 19 D
The number of students in a cafeteria is modeled by the function P that satisfies the logistic differential equation P (200- P), where tis the time in seconds and P0) = 25. What is the greatest rate of change, in students per second, of the number of students in the
cafeteria?
A
Submt
B.
25
100
200
Transcribed Image Text:Question 19 D The number of students in a cafeteria is modeled by the function P that satisfies the logistic differential equation P (200- P), where tis the time in seconds and P0) = 25. What is the greatest rate of change, in students per second, of the number of students in the cafeteria? A Submt B. 25 100 200
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