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Determine the displacement at point C. Use the principle of virtual work. EI is constant.
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Determine the displacement at point D. Use the principle of virtual work. EI is constant. 16 kN/m 4 m Im
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Determine the displacement at point D. Use the principle of virtual work. El is constant. 60 kN/m А B 3 m 5m Sm
Determine the vertical displacement of point C. El is constant. Use the method of virtual work. Prob. 8-55 80 KN.m 20 KN B -3 m 4 m
8-55 : Determine the vertical displacement of point C. EI is constant. Use the method of virtual work. -55. Determine the vertical displacement of point C. El is constant. Use the method of virtual work. $-56. Solve Prob. 8-55 using Castigliano's theorem. 80 kN m 20 kN B 4 m Probs. 8-55/56
Use the method of Virtual Work and Determine he horizontal displacement of point A on the angle bracket due to the concentrated force P. The bracket is fixed connected to its support. EI is constant. Consider only the effect of bending. L B C L PI A
Apply the principle of virtual work and find the upward vertical displacement at point D in mm P=650 KN El=2 x106 kNm2 L=4 m Please insert the answer in mm units and to three decimal places. ПР D B Δ L- L-
Determine the vertical displacement of point D under flexure using virtual-work equations. Flexural Rigidity (EI) of the beam is constant. S=3 and your distributed load is w=S+1=4 kN/m) Results table Ad,vertical w=(S+1) kN/m Α. B D 6 m 3 m 3 m K * Figure 4.