1. A bacteria colony initially has 4000 cells and triples every week. A function that can be used to model the population, p, of the colony after t days is a. p() = 4000(3) C. p(t) = 4000(3)7 b. P(t) = 4000(2)* d. %3D p(t) = 4000(2) 7 %3D 2. An investment of $100 is nlaced into an account that earne interact
1. A bacteria colony initially has 4000 cells and triples every week. A function that can be used to model the population, p, of the colony after t days is a. p() = 4000(3) C. p(t) = 4000(3)7 b. P(t) = 4000(2)* d. %3D p(t) = 4000(2) 7 %3D 2. An investment of $100 is nlaced into an account that earne interact
Algebra & Trigonometry with Analytic Geometry
13th Edition
ISBN:9781133382119
Author:Swokowski
Publisher:Swokowski
Chapter5: Inverse, Exponential, And Logarithmic Functions
Section5.2: Exponential Functions
Problem 35E
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