An endangered species numbered 7,000 at the start of the year 2003 and at the start of 2014 numbered 1,000. Assuming the population follows the exponential decay model N(t) = Noe kt, predict in what year the population will fall below 100. (Your answer must be a year).

An endangered species numbered 7,000 at the start of the year 2003 and at the start of 2014 numbered 1,000. Assuming the population follows the exponential decay model N(t) = Noe kt, predict in what year the population will fall below 100. (Your answer must be a year).

Algebra & Trigonometry with Analytic Geometry

13th Edition

ISBN:9781133382119

Author:Swokowski

Publisher:Swokowski

Chapter5: Inverse, Exponential, And Logarithmic Functions

Section: Chapter Questions

Problem 9T

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An endangered species numbered 7,000 at the start of the year 2003 and at the start of 2014 numbered 1,000. Assuming the population follows the exponential decay model N(t) = Noe kt,
predict in what year the population will fall below 100. (Your answer must be a year).

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