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12 Nov 2019
The number of yeast cells in a laboratory culture increases rapidly initially but levels off eventually. The population is modeled by the function N=f(t)=a/1+ be^-0.5t where t is measured in hours. At time t =0 the population is 10 cells and is increasing at a rate of 4 cells/hour. Find the values of a and b. a=30 X b=2 X According to this model, what happens to the yeast population in the long run? The yeast population will shrink to 0 cells. The yeast population will grow without bound. The yeast population will stabilize at 50 cells. The yeast population will stabilize at 25 cells. The yeast population will stabilize at 4 cells.
The number of yeast cells in a laboratory culture increases rapidly initially but levels off eventually. The population is modeled by the function N=f(t)=a/1+ be^-0.5t where t is measured in hours. At time t =0 the population is 10 cells and is increasing at a rate of 4 cells/hour. Find the values of a and b. a=30 X b=2 X According to this model, what happens to the yeast population in the long run? The yeast population will shrink to 0 cells. The yeast population will grow without bound. The yeast population will stabilize at 50 cells. The yeast population will stabilize at 25 cells. The yeast population will stabilize at 4 cells.
Reid WolffLv2
23 Mar 2019