Q1:Consider the space truss represented schematically in Figure 1. It has21 struts and a fixed support at "A". At joint "G", it is applied a forcevector with a component of -10 N, along the x-axis direction, and acomponent of 40 N, along the y-axis direction, as shown in Figure 1.Using the method of joints, calculate the forces for the strutsconverging at joint "E", i.e. the forces for struts "EA", "EB", "EF", "EG","ED" and "EH" and specify if the struts are in tension or in compression.(Your submission must include the Free Body Diagram (FBD) and theapplication of the equilibrium equations for the corresponding FBD).[50%]3 mENAНаKOD4mFLFigure 110 NBG40 N0y3 m

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Answered: Q1: Consider the space truss…

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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Determine the force in members FG, BF, and CE of the truss shown in the figure below. Let P = 29 kN. NOTE: If your answer is a compressive force then just put a negative sign. If your answer is a tensile force then just type the answer directly. (ALSO, DON'T FORGET THE UNITS) 2P 2P 30° 600 60° 60 60° 30 B. 3P 4m 4m 4m Solve the force in member FG. Solve the force in member BF. Solve the force in member CE. Q =' 21 II
A truss is shown to carry a load P as indicated. Given that the maximum allowable compressive force is 2.0 kN and the maximum allowable tensile force is 3.0 kN. Solve the maximum value of P that can be applied taking L=2m and angle ACD = 30.
Analyze the howe truss with the given dead load as shown in the figure. a. Find the length of all members of the truss. b. Find the stress (in kN) of all members and determine if its compression or tension. C. Find the Rav and Rgv Please answer with complete solution.
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STRENGTH OF MATERIALS (UPVOTE WILL BE GIVEN. PLEASE WRITE THE COMPLETE SOLUTIONS LEGIBLY. NO LONG EXPLANATION NEEDED. ANSWER IN 3 DECIMAL PLACES.)
Problem 1 (.:..D. For the given truss below, answer the questions. A = 1.5 in? and E = 29,000 ksi 2 k 2 k 2 k D E, F for all members: Sthe virtual loau nee 6 ft calcup B ma hertical disnenament of 8 ft 8 ft Amsng a unTZ OMULmer od Show the virtual load on the answer sheet to calculate the vertical displacement of joint E (Ag) using Castigliano's theorem (mark the magnitude of the load). (d) | Determine the vertical displacement of joint E (Ag) using Castigliano's theorem.
For the truss shown and loading, determine the axial stress in member BH in ksi. Use two decimal places. Express your answer in absolute value. Assume the sectional areas of the following: Top and bottom members = 1.80 in² Web members = 0.90 in² B 20 kip с 40 kip 6 ft @ 4 = 24 ft D 6 ft
The portion of truss shown represents the upper part of a power transmission line tower. The 2.7 kN force is 60° from the vertical. For the given loading, determine all zero force members. a. Use the Method of Section to find the forces in members BC, EH and EJ; b. Use the Method of Joints to find the forces in members BD and DE; Answers: FBC = 0.9878 kN, T, FEH = 2.9228 kN, C, FEJ = 0.5841 kN, C, FBD = 1.3171 kN, T, FDE = 0.3576 kN, C 1.60 m -2.21 m- Bl 2.21 m- Al 0.60 m 0.60 m C 2.7 kN 1.20 m 1.2 kN H 0.60 m 0.60 m K -2.97 m- 1.2 kN 1.20 m N 1.2 kN M! 0.60 m 0.60 m R 1.2 kN 1.2 kN T
3. The beam ABCD is fixed with simple support of B and C as shown in the figure below. When point A is 15 mm and point D is bent upward by 10 mm, find the loads P, Q to make point A and D equal to point B and C support points. P is acting on point A, and Q is acting on point D. The Flexible Rigidity tee is 2.5 X 106 Nm (Use Maucalay's method) 15 mm B -2.5 m تے 5m 25m 25m 10 mm
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