Structural Analysis 7-33. Dctcrmine the slope at B and the displaccmunt at C I.l is constant....
*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
Structural Analysis: Homewo Problem 3.2-10: For the given structures with a constant El and loadings; a) Draw SFD and BMD b) Determine the equation of the elastic curve, y(x) using the integration method c) Determine the slope angle and deflection shown on the right Problem 3.9 60 kN-m Internal hinge Left and right side of Op and Δ 3 m 3 m 3 m Problem 3.10: 10 k 0p and Ac Internal hinge 10 ft 10 ft 10 ft
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
Structural Analysis. Determine the vertical displacement of joint C. Assume the supports A and E are pins and joints B and C are pins connected. EI is constant. Use the method of virtual work.
Structural Analysis For the load shown in the figure, determine A) The equation of the elastic curve for the cantilever AB B) The deflection at the free end C) The slope at the free end. PS: Determine the equations of slope and elastic curve by the DOUBLE INTEGRATION METHOD PS: Calculate the slopes and deflections requested in each beam by the MOMENTAL AREA METHOD.
structural analysis 2- Determine the slope and deflection at mid span 25 kN/m 1. D #m-- -В 1-3 m +- -10 m- El = constant E = 200 GPS 1 - 500(106) mm
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
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
For the structural system shown in the figure determine the value of the deflection and slope at point C, apply the virtual working method with unit load 5kw/m. C B A 40 KN 2.80m 3.00m pom 5.80m
7-38. Determine the displacement at C and the slope at D Assume A is a fixed support, B is a pin, and D is a roller. Use the conjugate-beam method. 10 k 7 10 ft 10 ft 10 ft Prob. 7-38