Problem 4.3 The uniform, horizontal beam shown in Fig. 4.51 is hinged to the wall at point A and supported by a cable attached to the beam at point C. Point C also represents the center of gravity of the beam. At the other end, the cable is attached to the wall so that it makes an angle 0 = 68° with the horizontal. If the length of the beam is l= 4 m and the weight of the beam is W = 400 N, calculate the tension T in the cable and components of the reaction force on the beam at point A. %3D
Problem 4.3 The uniform, horizontal beam shown in Fig. 4.51 is hinged to the wall at point A and supported by a cable attached to the beam at point C. Point C also represents the center of gravity of the beam. At the other end, the cable is attached to the wall so that it makes an angle 0 = 68° with the horizontal. If the length of the beam is l= 4 m and the weight of the beam is W = 400 N, calculate the tension T in the cable and components of the reaction force on the beam at point A. %3D
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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4.13 Exercise Problems
Problem 43 The uniform, horizontal beam shown in
Fig. 4.51 is hinged to the wall at point A and supported by ar
a cable attached to the beam at point C. Point C also
th
represents the center of gravity of the beam. At the other
end, the cable is attached to the wall so that it makes an angle
0=68° with the horizontal. If the length of the beam is / =
4 m and the weight of the beam is W = 400 N, calculate the
tension T in the cable and components of the reaction force
on the beam at point A.
Answers: T = 431 N, RAr
= 162 N(→), RAy
= 0
A
Fie
Fig. 4.51 Problem 4.3
Pr
be
4.4 Using two different cable-pulley arrangements
Problem
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