The crash risk of an intoxicated driver relative to a similar driver with zero blood alcohol is

R(x) = 51500x^4.14 + 1.09

where x is the blood alcohol level as a percent

(0.01 ≤ x ≤ 0.15).

Find and compare dR and ΔR for

x = 0.08

and

dx = Δx = 0.006.

[Note:

x ≥ 0.08

defines "driving while intoxicated" and

R(0.08) = 2.6

means that such a driver is 2.6 times more likely to be involved in an accident than a similar driver who is not impaired.]†

 

 

dR	=
ΔR	=

 

The reproduction function for a whale is estimated to be

f(p) = −0.0005p² + 1.02p,

where p and

f(p)

are in thousands. Find the population that gives the maximum sustainable yield, and the size of the yield.

 

population:

size of the yield:

The crash risk of an intoxicated driver relative to a similar driver with zero blood alcohol is

R(x) = 51500x^4.14 + 1.09

where x is the blood alcohol level as a percent

(0.01 ≤ x ≤ 0.15).

Find and compare dR and ΔR for

x = 0.08

and

dx = Δx = 0.006.

[Note:

x ≥ 0.08

defines "driving while intoxicated" and

R(0.08) = 2.6

means that such a driver is 2.6 times more likely to be involved in an accident than a similar driver who is not impaired.]† 

dR

=

ΔR

=