-135. Determine the moment reactions at the supports and B. Use the method of El is...
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
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
Please use the Moment Distribution Method to solve this problem Determine the moments at the supports, then draw the moment diagram. Assume A and D are fixed. EI is constant. 4 k/ft -10 ft-t 18 ft--+--15 ft-- Prob. 12-7
Determine the reactions at the supports A and B. El is constant.
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
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
USE THREE-MOMENT EQUATION Problem 1. Determine the reactions at the supports using Three-moment equation. Assume A is a pin and B and C are rollers. El is constant. 10k 2.5 k/it B - -10 ft--++-10 ft + 25 ft
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
Determine the slope and the displacement at C. El is constant. Use the moment-area theorems. Prob. 7-28 6 k 12 k.ft 4 ft 6 ft