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2. For the structure shown, determine the weight (W) that can be suspended for the system to be in equilibrium. Also, determine the reactions at fixed support C and member FG. Rift W 7 ft Given: (figure) Required: (a) W so that system will be in equilibrium; (b) Cx, Cy, Mc and FFG -8 ft- B -5 ft- 15 G 6 ft- 465 kip H

2. For the structure shown, determine the weight (W) that can be suspended for the system to be in equilibrium. Also, determine the reactions at fixed support C and member FG. Rift W 7 ft Given: (figure) Required: (a) W so that system will be in equilibrium; (b) Cx, Cy, Mc and FFG -8 ft- B -5 ft- 15 G 6 ft- 465 kip H

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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Answers are already given. Kindly answer all the required forces. 

ANSWER:

FFG=1103.7267 kip, T

W= 832. 7498 kip, T 

Mc= 6272.9979 kip-ft, clockwise

Cx= 0

Cy=1297.7498

2. For the structure shown, determine the weight (W) that can be suspended for the system to be in equilibrium. Also, determine the reactions at fixed support C and member FG. R 1 ft A W 7 ft 40° Given: (figure) Required: (a) W so that system will be in equilibrium; (b) Cx, Cy, Mc and FFG -8 ft- E D B -5 ft- -3 ft- 15° с G -6 ft- 465 kip H
Transcribed Image Text:2. For the structure shown, determine the weight (W) that can be suspended for the system to be in equilibrium. Also, determine the reactions at fixed support C and member FG. R 1 ft A W 7 ft 40° Given: (figure) Required: (a) W so that system will be in equilibrium; (b) Cx, Cy, Mc and FFG -8 ft- E D B -5 ft- -3 ft- 15° с G -6 ft- 465 kip H
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