Find the perimeter.

The following data show the distance D, in millions of miles, and the period P, in years, of five of the planets. (The period is the time required for one revolution about the sun.)  Planet Mercury Venus Earth Mars Jupiter D 36 67.1 92.9 141.7 483.4 P 0.24 0.62 1 1.88 11.87? A: Use power regression to model the period as a function of the distance. Use four digits of accuracy for the coefficient and two digits for the power.B: Plot the data along with the power model you found in part A.C: If one planet is twice as far away from the sun as another, how do their periods compare? Round your answer to two decimal places.

What will be an ideal response?

Solve the proportion. = 

A.
B.
C. 21
D.

Use the maximum/minimum finder on a graphing calculator to determine the approximate location of all local extrema.f(x) = x4 - 4x3- 53x2 - 86x - 95

A. Approximate local maximum at 1.037; approximate local minima at -3.209 and 7.052 B. Approximate local maximum at -0.944; approximate local minima at -3.192 and 7.136 C. Approximate local maximum at 0.942; approximate local minima at -3.183 and 7.049 D. Approximate local maximum at 0.901; approximate local minima at -3.18 and 7.077

The rule of the derivative of a function f is given. Find the location of all local extrema.f'(x) = (x2 - 4)(x - 1)

A. Local maximum at 1 - ; local minimum at 1 + 
B. Local maximum at 1; local minima at -2 and 2
C. Local maximum at 1 + ; local minimum at 1 - 
D. Local maxima at -2 and 2; local minimum at 1