ܛܠܠܠܠܠܝ Min. L- Fig. 9-28 Fig. 9-29 9.33. Determine the equation of the deflection curve for...
Please answer question 9.35.
Mis L- Fig. 9-28 Fig. 9-29 9.33. Determine the equation of the deflection curve for the cantilever beam loaded by the concentrated force P as shown in Fig. 9-28. Ans. Ely = -(a – )3 – Pa< x + Pas for 0 << <a; Ely = - Pą2 x + Pap for a < < <L 9.34. For the cantilever beam of Fig. 9-28, take P = 1000 lb, a = 6 ft, and b =...
1. The cantilever beam AB of length L shown in Fig.(a carries a uniformly distributed load of intensity wo, which includes the weight of the beam. Equation of the elastic curve is given by the following differential equation Af _irer where M is the bending moment of the beam. it is also given that of the beam and I modulus of Inertia. where E- Modulus of the elasticity v is the deflection of the beam. Compute the maximum displacement of...
3. Determine the deflection at point C, and the equation(s) of the elastic curve (for the entire beam). Use E- 200 GPa. Required: use direct integration (similar to Sample Problem 9.). Show all work, especially how constants of integration are determined. Note: the origin, x-0 should be at port A for all parts of your work. Show statics work to justify the M(x) functions that are the basis of your solution. M,-38 kN . m W100 X 19.3 a 0.8...