I think I know the answer but I am not sure how to insert it in the software. please type it in a way I can copy it because it always give a wrong answer.
I think I know the answer but I am not sure how to insert it in the software. please type it in a...
slope and deflection please Consider the beam and loading shown. Assume that the flexural rigidity El of the beam is constant References eBook & Resources Section Break -Difficulty: Easy value: 10.00 points Determine the deflection at the free end. (Round the final answer to two decimal places.) The deflection at the free end is
Midway answer provided by instructor to make sure answer is correct 4) For the beam and loading shown, use the double-integration method to determine (a) the equation of the elastic curve for the cantilever beam AB, (b) the deflection at the free end, and (c) the slope at the free end. Assume that El is constant for the beam. Wo 0
Consider the beam and loading shown. Assume that the flexural rigidity Elof the beam is constant Mo References eBook &Resources Section Break Difficulty. Easy value: 10.00 points Determine the deflection at the free end. (Round the final answer to two decimal places.) The deflection at the free end is EI
Consider the beam and loading shown. Assume that the flexural rigidity El of the beam is constant. L/2 References eBook & Resources Section Break Difficulty Easy 4. value: 10.00 points Determine the deflection at mid span of span AB. (Round the final answer to four decimal places.) ↓ The deflection at mid span is
QUESTION 4 (25 marks) A simply supported beam is loaded by an uniform distributed load, wkN/m, over the span of the beam, L, as shown in Figure Q4. (a) Determine the end reactions at point A and B in terms of w and L. (4 marks) (b) At an arbitrary point, x, express the internal mom (c) Show that the deflection curve of the beam under the loading situation is ent, M(x), in x, w, and L. (5 marks) 24EI...
For the cantilever beam and loading shown, determine the slope and defection at point B Take w = 3 kipn and E = 29 x 106 psi. (Round the final answers to three decimal places.) 2.0 in. I kip 4.0 in 3 ft 10-3 rad 0.245 in The slope at point B is The deflection at point B is HintsReferences Book&Resources For the cantilever beam and loading shown, determine the slope and defection at point B Take w = 3...
For the cantilever beam and loading shown in Figure Q3(b), determine: i The equation of the elastic curve for portion AB of the beam. ii) The deflection and slope at B. wL2 6 0 Mc 6 (a Figure Q3(h)
Problem 2: i. For the cantilever beam (free at A and fixed at B) determine the expression for moment as a function of x, that is M(x). Take A as origin. [10 Points 4 kN/m T - 2 m 27 - 2 m The expression for moment as a function of x, that is M(x), is shown below for a cantilever beam (fixed at A and free at B), considering A as origin. Taking EI constant, determine the slope and...
Problem 2 (15 points) For the loading case on the cantilever beam shown: i) Use the integration method to determine the deflection curve v=v(x). Assume the load has a cubic form q=%. (5 pts) Determine the rotation at point B. (5 pts) Determine the reactions at attachment. (5 pts) ii) iii)
Please help, I need every detail possible and all diagrams. For the beam and loading shown, determine (a) the deflection at point C, (b) the slope at end A. MA = Pa C -L