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CB = 4m Question 2 [20 MARKS] Using virtual work theory, determine the reaction at supports...
Question 2 [20 MARKS] Using virtual work theory, determine the reaction at supports C, A, and E for the frame shown in Figure 2. El =137500 kNm2 10 kN/m 7 D 10 m 5 m A E Figure 2 Question 2 [20 MARKS] Using virtual work theory, determine the reaction at supports C, A, and E for the frame shown in Figure 2. El =137500 kNm2 10 kN/m 7 D 10 m 5 m A E Figure 2
+ Question 2 20 MAR Using virtual work theory. dolermine the reaction to C. A well Figure 2. El 137500 km 10121%-10:56 10 5 O Please assist with structural analysis – Expert Q&A Figure 2 rollers at A and sig
Question 4 [15 MARKS] Using virtual work theory, determine the rotation at point A due to the load shown in Figure 4. E = 30 x 103 kN/mm2 and I = 200 x 104 mm. 20 KN 10 kNm A B 4 m 2 m K
May 21, 2020 CECE2220 - Theory of Structures ! 5. Discuss the applications of virtual work method. Apply the concept of virtual work theorem on the beam shown below and obtain the reactions at the supports? (10 Marks) 4 kN/m 12 kN 2 kN/m E A B D 2m 2m -- 1m-------
Please use virtual work method (full solution please with drawing) QUESTION 3 Calculate the reactions at the supports, then illustrate the moment diagram. The moment of inertia for each segment is shown in the figure. Assume A and Care rollers and B is pin. Take E = 200 Gpa 10 EN 20 KN 20 KN 1 -90/10) - 120X10mm -3m-3m-3m-4m -4m- (20 marks) (CLO 1: PLO 1: C4)
SAN4701 OCT/NOV 2016 QUESTION 3 The frame shown in the Figure 3 is having a fixed support at A and a hinged at support D Determine the reactions at the supports and moments at the joints using flexıbility method El is constant 20 kN/m 3 m 40 kN 3 m Figure 3 [30 marks] TOTAL MARKS [100] UNISA 2016 SAN4701 OCT/NOV 2016 QUESTION 3 The frame shown in the Figure 3 is having a fixed support at A and a...
2. Determine the vertical deflection at point C of the beam shown in Figure 2 with the virtual work method. PE 10 kN 2 kN/m El constant E= 2x 105 MPa 1-1x10 mm Figure 2 2. Determine the vertical deflection at point C of the beam shown in Figure 2 with the virtual work method. PE 10 kN 2 kN/m El constant E= 2x 105 MPa 1-1x10 mm Figure 2
QUESTION 1 [25 marks A frame loaded with a uniformly distributed load at Member AB and point load at Member BC and joint B. It has pinned supports A and C, while joint B is fixed connected, as can be seen in Figure 1. Take E-200 GPa. a) Using the slope-deflection method, calculate the moments and illustrate the bending moment diagram. [15 marks) b) Then calculate the shear forces and sketch the shear force diagram. [10 marks) 22 KN 10...
QUESTION 2 [30 Marks) The framed structure shown in Figure 2 has simple supports (i.e. is free to rotate) at joints A and G. Members AC and GE are vertical, while CE and EH are horizontal. There is an internal moment release at joint C. A uniformly distributed load of 5 kN/m is applied between D and E, and another uniformly distributed load of 4 kN/m is applied between F and G as shown. There is also a horizontal point...
0 Question 3 a) Using the Force Method, determine the reactions at all supports. In addition to the applied loads, support at A rotates 0.005 radian counterclockwise Given E=200GPa and i=150 x 106 mm! 200 x 109 (20 marks) oda rotation 5 kN/m 25 kNm 10 m 6 m By Figure 3 b) If a spring is connected at point C, determine the force in this spring using the force Method By comparing to the solution in Question 3(a), what...