Question 2. A truss structure is shown in Figure 2. Consider points A and F have...
Question 2. A truss structure is shown in Figure 2. Consider points A and F have pin and roller supports, respectively. Use the method of Section to determine the forces in IH, JH and CD members. (20 marks) I 3 KN 8 m B | 5 m por 10 m DE 5 m 1 m Pole 1 m Figure 2
Question 2. A truss structure is shown in Figure 2. Consider points A and F have pin and roller supports, respectively. Use the method of Section to determine the forces in IH, JH and CD members. (20 marks) 3 kN 8 m BC IDE 5 m 10 m 5 ml 1 m 1 m Figure 2
Question 2. A truss structure is shown in Figure 2. Consider points A and F have pin and roller supports, respectively. Use the method of Section to determine the forces in IH, JH and CD members. 3 KN H G 8 m J A F B C DE | 5 m ° 10 m POLE 5 m 1 m 1 m
Question 2. A truss structure is shown in Figure 2. Consider points A and F have pin and roller supports, respectively. Use the method of Section to determine the forces in IH, JH and CD members. (20 marks) 3 KN 8 m IDE 5 m 10 m 5 5 m 1 m 1 m Figure 2 Sec 1 Pages: 2 of 2 Words: 81 of 177 188
1. A simple truss structure is given in iure I below, joint A is commected to simple pin support and Joint G is resting on roller support. Knowing that external horizontal force of 100kN acts on joint B, and vertical forces of 150KN and 50kN are acting on joint D and respectively. Determine; (a) The reaction forces at supports A and B. (3 marks) (b) Forces carmed by members AB, AD, BC, BD, CD and CE, and indicate if the...
Statics problems Question A2 The plane truss shown in Figure A2 is supported at points A and J. -30° and the external loads are Fi 1.5 kN and F 3 kN. Draw the free body diagram of the truss. Determine all the reactions at the supports or, if this is not possible, explain why. a) Calculate the internal forces in members CF, EH, GH and HI, stating whether they are in tension or compression. b) (12) Are members CF and...
Q1. Consider a truss shown in Fig.1. Joint A sits on a pin support and I on a roller support. () Determine the forces on members CD, FG and Hl, using two different methods (a) and (b). Identify the forces as Tension or Compression. (ii) Determine the member that carries maximum tension. (a) method of Joints, and (b) method of Sections 200 kN 200 kN 200 kN 200 kN 200 kN 4 m 3 m -5 m Fig.1 Truss
In the truss shown in the figure: 1. Determine the support reactions at supports A and F. (10 points) 2. Determine the force in members BC, IC, and IH of the truss using method of joints. Explain and justify if the members are in tension or compression. (20 points) 3. Draw FBD for each step of 1 and 2. (10 points) 60KN 40 kN -2 m -2 m -2 m E D 1.5 m F с O -30 kN H...
Problem No. 2 (100 points) For the Baltimore bridge truss shown below answer the following questions: 1) Calculate Reaction Forces (FBD is already drawn assuming a pin support at A and a roller support at I) (10) 2) What is status of the Truss (determinate or indeterminate)? (10) 3) Obtain ALL the Zero force member (30) 4) Using method of Joints, find force in member PF and PG specify if these forces are in Tension or Compression? (25) 5) Using...
QUESTION 3 The truss shown in the Figure 3 is having hinged supports at A and B, assuming that the EA is constant for all the members. Use a flexibility method to determine the forces in each member and reactions at the supports. 80 kN 5 m 5 m 5 m 5 m Figure 3 130 marks) Total Marks [100 QUESTION 3 The truss shown in the Figure 3 is having hinged supports at A and B, assuming that the...