Solve using the stiffness method
Solve using the stiffness method Determine the reactions at the supports. El is a constant. Prob....
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
Determine the reactions at the supports. Assume O is a roller. El is constant Prob. 15-1 5 kN/m Solve using Stiffness method and show each matrix and final matrix
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
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
10-23. Determine the reactions at the supports. Assume A and B are pins. El is constant 9 kN/m Prob. 10-23
Using the force method, Determine the reactions at supports. EI is constant. Determine the reactions at supports. El is constant. 500 lb/ft 3k 10 ft- SA 0 a 6.5 (10) 10 ft - 2.5 uz
Please solve by only Unit Force method/deflection method Sec. 9.5 9-13. Determine the reactions at the supports. Assume A and C are pins and the joint at B is fixed connected. El is constant 12 kN/m B 12kN/m 4 m 6 m Prob. 9-13
Using force method , determine the reactions of the supports for the beam shown in Figure ( 5 ) . Then draw shear and bending moment diagrams for the beam El is constant Use conjugate beam method to determine deflections , 6 m 50 KN 200 kN. 9 m - 3 m Fig. (5) BEST WISHES
-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
1. Determine all reactions of supports using force method. El is constant. lookg 50kg 4m 2m 2 m