Rope BCA passes through a pulley at point C and supports a crate at point A. Rope segment CD supports the pulley and is attached to an eye anchor embedded in a wall. Rope segment BC creates an angle of 68.0 with the floor and rope segment CD creates an angle with the horizontal. If both ropes BCA and CD can support a maximum tensile force Tosse 140 lb, what is the maximum weight Wass of the crate that the system can support? X What is the angle @ required for equilibrium? Express your answers numerically in pounds and degrees to three significant figures separated by a comma.

Rope BCA passes through a pulley at point C and supports a crate at point A. Rope segment CD supports the pulley and is attached to an eye anchor embedded in a wall. Rope segment BC creates an angle of 68.0 with the floor and rope segment CD creates an angle with the horizontal. If both ropes BCA and CD can support a maximum tensile force Tosse 140 lb, what is the maximum weight Wass of the crate that the system can support? X What is the angle @ required for equilibrium? Express your answers numerically in pounds and degrees to three significant figures separated by a comma.

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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Question

Part C
Rope BCA passes through a pulley at point C and supports a crate at point A. Rope segment CD supports the pulley and is attached to an eye anchor
embedded in a wall. Rope segment BC creates an angle of d-68.0 with the floor and rope segment CD creates an angle with the horizontal. If both
ropes BCA and CD can support a maximum tensile force To 140 lb, what is the maximum weight Was of the crate that the system can support?
What is the angle @ required for equilibrium?
Express your answers numerically in pounds and degrees to three significant figures separated by a comma.
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VG ΑΣΦ. Η νοο
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