The small intestine bacteria, while inhabiting areas optimal for growth, have a doubling time of roughly 10 hours. A normal small intestine starting population would be approximately 10, 000 bacteria per ml of fluid. a) Write an equation to model this exponential growth, with b(x) representing the number of bacteria per ml and x representing the time in hours. b) How long will it take for there to be 100, 000 bacteria per ml? (Round your answer to two decimal places if necessary) e) Determine the average rate of change between 20 hours and 30 hours.
The small intestine bacteria, while inhabiting areas optimal for growth, have a doubling time of roughly 10 hours. A normal small intestine starting population would be approximately 10, 000 bacteria per ml of fluid. a) Write an equation to model this exponential growth, with b(x) representing the number of bacteria per ml and x representing the time in hours. b) How long will it take for there to be 100, 000 bacteria per ml? (Round your answer to two decimal places if necessary) e) Determine the average rate of change between 20 hours and 30 hours.
Advanced Engineering Mathematics
10th Edition
ISBN:9780470458365
Author:Erwin Kreyszig
Publisher:Erwin Kreyszig
Chapter2: Second-order Linear Odes
Section: Chapter Questions
Problem 1RQ
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Transcribed Image Text:Question 5
The small intestine bacteria, while inhabiting areas optimal for
growth, have a doubling time of roughly 10 hours. A normal small
intestine starting population would be approximately 10, 000 bacteria
per ml of fluid.
a) Write an equation to model this exponential growth, with
b(x) representing the number of bacteria per ml and x
representing the time in hours.
b) How long will it take for there to be 100, 000 bacteria per ml? (Round your
answer to two decimal places if necessary)
e) Determine the average rate of change between 20 hours and 30 hours.
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