What bearing and airspeed are required for a plane to fly 320 miles due north in 2.0 hours if the wind is blowing from a direction of 341° at 17 mph? The plane should fly at mph at a bearing of (Round to the nearest integer.)

Algebra and Trigonometry (6th Edition)
6th Edition
ISBN:9780134463216
Author:Robert F. Blitzer
Publisher:Robert F. Blitzer
ChapterP: Prerequisites: Fundamental Concepts Of Algebra
Section: Chapter Questions
Problem 1MCCP: In Exercises 1-25, simplify the given expression or perform the indicated operation (and simplify,...
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What bearing and airspeed are required for a plane to fly 320 miles due north in 2.0 hours if the wind is
blowing from a direction of 341° at 17 mph?
The plane should fly at mph at a bearing of
(Round to the nearest integer.)
Force X has a magnitude of 1200 pounds, and Force Y has a magnitude of 1520 pounds. They act on a single point at an angle of 75° to each other. Find the magnitude of the equilibrant and the angle
between the equilibrant and the 1200-pound force.
What is the magnitude of the equilibrant? pounds
(Round to the nearest tenth.)
A force of 156 pounds makes an angle of 80°37' with a second force. The resultant of the two forces
makes an angle of 34°12' to the first force. Find the magnitudes of the second force and of the
resultant.
34 12
80°37
156 1b
The second force has a magnitude of
pounds.
(Round to the nearest integer.)
Transcribed Image Text:What bearing and airspeed are required for a plane to fly 320 miles due north in 2.0 hours if the wind is blowing from a direction of 341° at 17 mph? The plane should fly at mph at a bearing of (Round to the nearest integer.) Force X has a magnitude of 1200 pounds, and Force Y has a magnitude of 1520 pounds. They act on a single point at an angle of 75° to each other. Find the magnitude of the equilibrant and the angle between the equilibrant and the 1200-pound force. What is the magnitude of the equilibrant? pounds (Round to the nearest tenth.) A force of 156 pounds makes an angle of 80°37' with a second force. The resultant of the two forces makes an angle of 34°12' to the first force. Find the magnitudes of the second force and of the resultant. 34 12 80°37 156 1b The second force has a magnitude of pounds. (Round to the nearest integer.)
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