Respuesta :
Answer:
a) The relation between y and t is
[tex]y(t)=8.6e^{ln(2)\cdot t/5}[/tex]
b) y(6) = 19.8 mm^2
Step-by-step explanation:
The question is incomplete: "The area covered by a certain population of bacteria increases according to a continuous exponential growth model. Suppose that a sample culture has an initial area of 8.6 mm^2 and an observed doubling time of 5 days. (a)Let be the time (in days) passed, and let y be the area of the sample at time . Write a formula relating y to t. Use exact expressions to fill in the missing parts of the formula. Do not use approximations. (b)What will the area of the sample be in 6 days?
As the area covered increases according to a continous growth model, we start with these relation:
[tex]y(t)=Ce^{kt}[/tex]
We know that the initial area y(0) is 8.6. Then:
[tex]y(0)=Ce^0=C=8.6\\\\C=8.6[/tex]
We also know that the area duplicates after 5 days.
[tex]y(t+5)=2y(t)\\\\\frac{y(0+5)}{y(0)} =2=\frac{e^{0+5k}}{e^0} =e^{5k}\\\\5k=ln(2)\\\\k=ln(2)/5\approx0.14[/tex]
Then, the model becomes:
[tex]y(t)=8.6e^{ln(2)\cdot t/5}[/tex]
b) We have to calculate y(6)
[tex]y(6)=8.6e^{ln(2)\cdot 6/5}=8.6e^{ 0.832}=8.6*2.297=19.758[/tex]
