Determine the reactions at the supports. Assume O is a roller. El is constant Prob. 15-1...
Solve using the stiffness method Determine the reactions at the supports. El is a constant. Prob. 15-7 6 12 kN/m 5 m 2.5 m Show transcribed image text
Solve using Stiffness method and show each matrix and final matrix is a roller is constant. Determine the reactions at the supports. Assume Prob. 15-1 5 kN/m
Determine the reactions at the supports. El is a constant Prob. 15-7 12 kN/m 2.5 m Show transcribed image text Solve using the stiffness method
10-23. Determine the reactions at the supports. Assume A and B are pins. El is constant 9 kN/m Prob. 10-23
SAN4701 OCT/NOV 2017 QUESTION 1 The beam shown in Figure 1 is fixed at support A and support C, support B is a roller support. Use the stiffness matrix method to determine the. Member stiffness matrix 11 1.2 Structure and load matrix (10) 13 Displacement matrix Reactions at the support 14 15. Moments at the fixed supports El is constant along the length of the beam 18 kN 10 kN 20 m 10 m 1 15 m15 m Figure 1...
1. Determine the reactions at the supports A and B using Force Method. El is constant. w B А L 2 L 2 (i) (ii) Use, L = 4 m Use, w = 5 kN/m
Prob. 15-12 15-13. Use a computer program to determine the reactions on the beam. Assume A and D are roliers. El is constant. pins and B and C are 50 kN/m D C A 2.4 m 6 m 2.4 m Prob. 15-12 15-13. Use a computer program to determine the reactions on the beam. Assume A and D are roliers. El is constant. pins and B and C are 50 kN/m D C A 2.4 m 6 m 2.4 m
1. Determine all reactions of supports using force method. El is constant. lookg 50kg 4m 2m 2 m
-135. Determine the moment reactions at the supports and B. Use the method of El is constant. area Wo 0 y. 131 る。 Prob. 12-135
Determine the moment at B, then draw the moment diagram for the beam. Assume the supports at A and C are pins and B is a roller. El is constant.