The rabbit population on a small island is observed to be given by the function P (t) = 130t - 0.4t^4 + 1200 where t is the time (in months) since observations of the island began.

(a) When is the maximum population attained (Round your answer to one decimal place.)

What is the maximum population? (Round your answer to the nearest whole number.)

(b) When does the rabbit population disappear from the island? (Round your answer to one decimal place.) ... ?

Question

Mathematics

Robles

23 April, 15:01

The rabbit population on a small island is observed to be given by the function P (t) = 130t - 0.4t^4 + 1200 where t is the time (in months) since observations of the island began.

(a) When is the maximum population attained (Round your answer to one decimal place.)

What is the maximum population? (Round your answer to the nearest whole number.)

(b) When does the rabbit population disappear from the island? (Round your answer to one decimal place.) ... ?

+3

Answers (1)

Know the Answer?

Brenna George · Answer 1

A.) P (t) = 130t - 0.4t^4 + 1200

The population is maximum when P' (t) = 0

P' (t) = 130 - 1.6t^3 = 0

1.6t^3 = 130

t^3 = 81.25

t = ∛81.25 = 4.3 months.

Maximum population P (t) max = 130 (4.3) - 0.4 (4.3) ^4 + 1200 = 1,622

b.) The rabbit population will disappear when P (t) = 0

P (t) = 130t - 0.4t^4 + 1200 = 0

t ≈ 8.7 months