I do not know exactly, but it seems to be correct A = Pe^(r*t) Compounding continously
17,000 = Пэ^(.051*14)
17,000/e^(.714) = P
$8324.59 = P
First you have to find 1/3 of the marbles. That means in the twelve marvels she has, there are three even groups. Divide twelve by three and you get four. So if each group is four, it is simple from here on out. If she started out with twelve and she lost 1/3 of them(4) it would be 12-4. You know this because lost is another for for subtract. 12-4=8. She has 8 marbles left.
3t/4=2p/5 solve for p
p=15t/8
p=1.875 tons of sand
(0,416, infinity) is the best answer
Thank you for your question, <u>your question is: The amount of algae in a bloom, P, can be modeled by the equation P = t4 + 6t3 + 7t2 + 8t, where t is measured in weeks. When will the population of algae be greater than 500?</u>
