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Determine the slope and the displacement at C. El is constant. Use the moment-area theorems. Prob....
*7-32. Determine the slope at B and the displacement at C El is constant. Use the moment-area theorems. 12 k 6 k th 9ft9 ft Prob. 7-32
Determine the slope to the left and right of B and the displacement at D. El is constant. Use the moment-area theorems Prob. 7-36 60 kN m
Determine the slope and displacement at point C. El is constant. Assume A is a pin. Use the method of virtual work. Prob. 8-30 2 k/ft с А 12 ft 6 ft
Determine the slope at B and displacement at D. Er is constant. Use the moment-area theorems, 3 m 3m
1. Determine the slope and displacement at point C. El is constant. Assume A is a pin and B is a roller. (25 points) 2 k/ft 12 ft 6 ft
* J Determine the slope at A and displacement at point C. El is constant. Use Castigliano's theorem. 8 kN/m - 4 m 3: Determine the displacement at point C. EI is constant. Use Castigliano's theorem. (Page 1 of 1 Determine the slope and displacement at point A. El is constant. Use Castigliano's theorem. ON
Keep getting stuck on 7-34 . Can someone please solve for the displacement and slope at A by using the moment area theorems? ine the maximum displacement of the beam 7 at A. El is constant. Use the moment-area A rems th Ive Prob. 7-34 using the conjugate-beam method. 30 kN m 6 m Probs. 7-34/35
Determine the slope at A. El is constant. Prob. 8-28 C B - L + L
-4. Determine the value of a so that the slope at A is zero. El is constant. Use the moment-area theorems.
Please solve the following problem and show all work. Thank you! Prob. 1 Use Moment Area and find the deflections at B & D Find the slope at A, the right of B and the right of D 20k 200 k-ft 2 k/ft B C 8' 6' 12' 10' AB, DE: El; B-C-D: 2ElI