A bacteria has an initial population of 500 and is doubling every hour. The bacteria reaches a population of 16,000 bacteria. Which equation could represetnt the situation described and how long does it take for the baceria to reach 16,000? 500 (2)“ 16,000 a fter 16 hours 500 (2)“ = 16, 000 a fter 5 hours
A bacteria has an initial population of 500 and is doubling every hour. The bacteria reaches a population of 16,000 bacteria. Which equation could represetnt the situation described and how long does it take for the baceria to reach 16,000? 500 (2)“ 16,000 a fter 16 hours 500 (2)“ = 16, 000 a fter 5 hours
Algebra & Trigonometry with Analytic Geometry
13th Edition
ISBN:9781133382119
Author:Swokowski
Publisher:Swokowski
Chapter5: Inverse, Exponential, And Logarithmic Functions
Section5.6: Exponential And Logarithmic Equations
Problem 14E
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A bacteria has an initial population of 500 and is doubling every hour. The bacteria reaches a population of 16,000 bacteria.
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