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Given a population of e10 began experiencing exponential growth at t = 0, and a reached...

Given a population of e10 began experiencing exponential growth at t = 0, and a reached a size of e910 bacteria after 5 hours, what is the growth constant, expressed in hours, for this population of bacteria?

Report your answer to two decimal places.

C subscript t space equals space C subscript 0 e to the power of k t end exponent C subscript t over C subscript 0 equals e to the power of k t end exponent ln open parentheses C subscript t over C subscript 0 close parentheses space equals space ln left parenthesis e to the power of k t end exponent right parenthesis ln open parentheses C subscript t over C subscript 0 close parentheses space equals space k t fraction numerator ln open parentheses C subscript t over C subscript 0 close parentheses over denominator t end fraction space equals space k

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Answer #1

Summary: Growth constant of a exponentially growing population can be calculated by the formula, ca = Coekt. It was determine→ In (3) St. Substituting the values in the above equation, we get in (9) - **5. 5k = in(91) 56 = 4.51 k = 4.51 5 K=0.902 (k=

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