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A beam, uniform in mass, M = 47.6 kg and length L = 10.2 m, hangs by a cable supported at point B, and rotates without friction around point A. On the end far of the beam, an object of mass m = 24.3 kg is hanging. The beam is making an angle of θ = 30.9° at point A with respect to the + x-axis. The cable makes an angle φ = 21.1° with respect to the - x-axis at B. Assume ψ = θ + φ.  a. Enter an expression for the lever arm for the weight of the beam, lB, about the point A.  b.  Find an expression for the lever arm for the weight of the mass, lm.  c. Write an expression for the magnitude of the torque about point A created by the tension T. Give your answer in terms of the tension T and the other given parameters and trigonometric functions.  d. Enter an expression the horizontal component of the force, Sx, that the wall exerts on the beam at point A in terms of the tension T, given parameters, and variables available in the palette.  e. Enter an expression for the vertical component of the force, Sy, that the wall exerts on the beam at point A in terms of the tension T, given parameters, and variables available in the palette.

A beam, uniform in mass, M = 47.6 kg and length L = 10.2 m, hangs by a cable supported at point B, and rotates without friction around point A. On the end far of the beam, an object of mass m = 24.3 kg is hanging. The beam is making an angle of θ = 30.9° at point A with respect to the + x-axis. The cable makes an angle φ = 21.1° with respect to the - x-axis at B. Assume ψ = θ + φ.  a. Enter an expression for the lever arm for the weight of the beam, lB, about the point A.  b.  Find an expression for the lever arm for the weight of the mass, lm.  c. Write an expression for the magnitude of the torque about point A created by the tension T. Give your answer in terms of the tension T and the other given parameters and trigonometric functions.  d. Enter an expression the horizontal component of the force, Sx, that the wall exerts on the beam at point A in terms of the tension T, given parameters, and variables available in the palette.  e. Enter an expression for the vertical component of the force, Sy, that the wall exerts on the beam at point A in terms of the tension T, given parameters, and variables available in the palette.

Elements Of Electromagnetics
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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A beam, uniform in mass, M = 47.6 kg and length L = 10.2 m, hangs by a cable supported at point B, and rotates without friction around point A. On the end far of the beam, an object of mass m = 24.3 kg is hanging. The beam is making an angle of θ = 30.9° at point A with respect to the + x-axis. The cable makes an angle φ = 21.1° with respect to the - x-axis at B. Assume ψ = θ + φ

a. Enter an expression for the lever arm for the weight of the beam, lB, about the point A. 

b.  Find an expression for the lever arm for the weight of the mass, lm

c. Write an expression for the magnitude of the torque about point A created by the tension T. Give your answer in terms of the tension T and the other given parameters and trigonometric functions. 

d. Enter an expression the horizontal component of the force, Sx, that the wall exerts on the beam at point A in terms of the tension T, given parameters, and variables available in the palette. 

e. Enter an expression for the vertical component of the force, Sy, that the wall exerts on the beam at point A in terms of the tension T, given parameters, and variables available in the palette. 

B. A Assume y = 0 + q. 10 Ꮎ 9 m
Transcribed Image Text:B. A Assume y = 0 + q. 10 Ꮎ 9 m
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