Two yeast populations are grown in a lab on campus. The first population grows according the DDS given by an = 1.13-an-1 with a = 14000, while the second population grows according to b = 1.14-bn-1 with be- 9000. If n is easured in weeks, in how many weeks will the populations of the two populations be equal? (a) Which approach would you use to solve this problem? O Set the explicit solution of an equal to that of b, and solve for n O Set the two DDS equations equal to 0 and solve for n O Set the explicit solution of each DDS to 0 and solve for n O Set the DDS for an equal to be and solve for n (b) The two populations will be equal after accurate to 2 decimal places as needed. weeks. Round your answer

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Two yeast populations are grown in a lab on campus. The first population grows according the DDS given by an = 1.13-an-1 with an =14000, while the second population grows according to bn = 1.14. bn-1 with bo = 9000. If n is easured in weeks, in how many weeks will the populations of the two populations be equal? (a) Which approach would you use to solve this problem? Set the explicit solution of an equal to that of b, and solve for Set the two DDS equations equal to 0 and solve for n Set the explicit solution of each DDS to 0 and solve for n Set the DDS for an equal to be and solve for n (b) The two populations will be equal after accurate to 2 decimal places as needed. weeks. Round your answer