An accepted relationship between stopping distance, d in feet, and the speed of a car, in mph, is d (v) = 1.1v+0.06v^2 on dry, level concrete.

a) how many feet will it take a car traveling 45 mph to stop on dry, level concrete?

b) if an accident occurs 200 feet ahead, what is the maximum speed at which one can travel to avoid being involved in the accident?

Question

Mathematics

Giuliana Hurst

18 March, 22:09

An accepted relationship between stopping distance, d in feet, and the speed of a car, in mph, is d (v) = 1.1v+0.06v^2 on dry, level concrete.

a) how many feet will it take a car traveling 45 mph to stop on dry, level concrete?

b) if an accident occurs 200 feet ahead, what is the maximum speed at which one can travel to avoid being involved in the accident?

+1

Answers (1)

Know the Answer?

Mckenna Humphrey · Answer 1

The given equation is:

d (v) = 1.1 v + 0.06 v^2

a. so given that v = 45 mph, find d in feet

d = 1.1 * 45 + 0.06 * 45^2

d = 171 feet

So it takes 171 feet before coming to a stop.

b. given d = 200 feet, calculate for v

200 = 1.1 v + 0.06 v^2

divide everything by 0.06:

v^2 + (1.1/0.06) v = (200/0.06)

completing the square:

(v + 1.1/0.03) ^2 = (200/0.06) + (1.1/0.03) ^2

v + 1.1/0.03 = ± 68.39

v = - 105.06 mph; 31.72 mph

So the maximum speed is 31.72 mph