56. Two planes flying at the same altitude are on a course to fly over a control tower. Plane A is 50 mi east of the tower flying 125 mph. Plane B is 90 mi south of the tower flying 200 mph. Place the origin of a rectangular coordinate system at the intersection. a. Write parametric equations that model the path of each plane as a function of the time t>0 (in hr). b. Determine the times required for each plane to reach a point directly above the tower. Based on these results, will the planes crash? c. Write the distance between the planes as a function of the time t. d. How close do the planes pass? Round to the nearest tenth of a mile.

Trigonometry (11th Edition)
11th Edition
ISBN:9780134217437
Author:Margaret L. Lial, John Hornsby, David I. Schneider, Callie Daniels
Publisher:Margaret L. Lial, John Hornsby, David I. Schneider, Callie Daniels
Chapter1: Trigonometric Functions
Section: Chapter Questions
Problem 1RE: 1. Give the measures of the complement and the supplement of an angle measuring 35°.
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56. Two planes flying at the same altitude are on a course
to fly over a control tower. Plane A is 50 mi east of
the tower flying 125 mph. Plane B is 90 mi south of
the tower flying 200 mph. Place the origin of a
rectangular coordinate system at the intersection.
a. Write parametric equations that model the path of
each plane as a function of the time t>0 (in hr).
b. Determine the times required for each plane to reach a
point directly above the tower. Based on these results,
will the planes crash?
c. Write the distance between the planes as a function of
the time t.
d. How close do the planes pass? Round to the nearest
tenth of a mile.
Transcribed Image Text:56. Two planes flying at the same altitude are on a course to fly over a control tower. Plane A is 50 mi east of the tower flying 125 mph. Plane B is 90 mi south of the tower flying 200 mph. Place the origin of a rectangular coordinate system at the intersection. a. Write parametric equations that model the path of each plane as a function of the time t>0 (in hr). b. Determine the times required for each plane to reach a point directly above the tower. Based on these results, will the planes crash? c. Write the distance between the planes as a function of the time t. d. How close do the planes pass? Round to the nearest tenth of a mile.
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