Three people located at A, B, and C pull on ropes tied to a ring. Find the magnitude and direction of the force with which the person at C must pull so that no one moves (the system is in equilibrium). =104 lb |F,| =62 Ib 45° 30° F, ..... Let F1, F2, and F3 denote the forces with which the person at A, B, and C pull. Place the vectors in a standard coordinate system, and let the ring be the origin. If the system is in equilibrium, which of the following equations should stand? O A. F, +F2-F3 = 0 O B. -F, - F2 + F3 = 0 C. F, +F2 + F3 = 0 O D. F, -F2 +F3 = 0 The magnitude of the force with which the person at C must pull is (Round to the nearest integer as needed.) A.
Three people located at A, B, and C pull on ropes tied to a ring. Find the magnitude and direction of the force with which the person at C must pull so that no one moves (the system is in equilibrium). =104 lb |F,| =62 Ib 45° 30° F, ..... Let F1, F2, and F3 denote the forces with which the person at A, B, and C pull. Place the vectors in a standard coordinate system, and let the ring be the origin. If the system is in equilibrium, which of the following equations should stand? O A. F, +F2-F3 = 0 O B. -F, - F2 + F3 = 0 C. F, +F2 + F3 = 0 O D. F, -F2 +F3 = 0 The magnitude of the force with which the person at C must pull is (Round to the nearest integer as needed.) A.
Trigonometry (MindTap Course List)
8th Edition
ISBN:9781305652224
Author:Charles P. McKeague, Mark D. Turner
Publisher:Charles P. McKeague, Mark D. Turner
Chapter2: Right Triangle Trigonometry
Section2.5: Vectors: A Geometric Approach
Problem 59PS
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Answer the following questions:
The magnitude of the force with which the person at C must pull is:
The degree and direction of the force with which the person at C must pull is:
Transcribed Image Text:Three people located at A, B, and C pull on ropes tied to a ring. Find the magnitude and direction of the force with which the
person at C must pull so that no one moves (the system is in equilibrium).
|F,| =104 1b
|F,| = 62 Ib
45°
30°
F,
.....
Let F1, F2, and F3 denote the forces with which the person at A, B, and C pull. Place the vectors in a standard coordinate system, and let the ring be the
origin. If the system is in equilibrium, which of the following equations should stand?
O A. F, +F2-F3 = 0
O B. -F, -F2 + F3 = 0
YC. F, +F2 +F3 = 0
O D. F, -F2 +F3 = 0
The magnitude of the force with which the person at C must pull is
(Round to the nearest integer as needed.)
A.
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