Please help with this practice question. ThanksQuestion 2) Determine the magnitude of the x-component of force at pin D. (The Units is kN) Item 22 of 6Various geometry:hi = 26.9 mha = 4.1 mhy = 5.6 m1 = 11.3 ml2 = 15.1 m1s = 4.8 m0 = 62.3 degreesAssumptions:• The main body AEFG can be considered massless.• The cable CFGJ is massless.• The pulleys at F and G can be considered massless, frictionless, and of negligible diameter.All bodies are considered rigid.i. Determine the weight of counterweight J in order for the main jib DCB to be horizontal.ii. Determine the magnitude of the z and y components of force at pin D.i. Determine the reactions at fixed support A. The main jib DCB (in green) has a weight of 25 kN concentrated in the center of the beam. This is pinned to the main body at D and is supported by a cable that is routed throughpulleys at F and G and is attached to a concrete counterweight J.The structure shown below is a simplified tower crane. It carries a shipping crate suspended from B that has a weight of 97 kN.The main body AEFG (in yellow) is fixed to the ground at A.Fh3GEh2В1213

Answered: Image /qna-images/answer/c07911ec-3a54-4c61-8851-3603364cf69e.jpg

The structure shown below is a simplified tower crane. It carries a shipping crate suspended from B that has a weight of 97 kN. The main jib DCB (in green) has a weight of 25 kN concentrated in the center of the beam. This is pinned to the main body at D and is supported by a cable that is routed through pulleys at F and G and is attached to a concrete counterweight J. The main body AEFG (in yellow) is fixed to the ground at A.

The structure shown below is a simplified tower crane. It carries a shipping crate suspended from B that has a weight of 97 kN. The main jib DCB (in green) has a weight of 25 kN concentrated in the center of the beam. This is pinned to the main body at D and is supported by a cable that is routed through pulleys at F and G and is attached to a concrete counterweight J. The main body AEFG (in yellow) is fixed to the ground at A.

International Edition---engineering Mechanics: Statics, 4th Edition

4th Edition

ISBN:9781305501607

Author:Andrew Pytel And Jaan Kiusalaas

Publisher:Andrew Pytel And Jaan Kiusalaas

Chapter5: Three-dimensional Equilibrium

Section: Chapter Questions

Problem 5.26P: The figure shows the FBD of a portion of the space truss shown in Fig. P5.25. Use this FBD to find...

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