1.
How do I find an expression for the reaction force (Xc) in C? The beam is fixed in A and there is a roller connection in C. The roller connection is placed at the center of the beam. Length of beam is L. The beam is loaded with a triangular load from A to B (Q kN per meter).
Illustration of problem: http://goo.gl/xJ6u7x
2.
http://www.engineering.uiowa.edu/~de...orceMethod.pdf
3.
The problem is that there is four unknown reaction forces, so I can't solve by applying the three equations of equilibrium. I tried using the force method for statically indeterminate beams to find the reaction force in C. I don't know if it's correct, but I got Xc to be QL/40.
Attempt at a solution: http://goo.gl/oD7rPn
How do I find an expression for the reaction force (Xc) in C? The beam is fixed in A and there is a roller connection in C. The roller connection is placed at the center of the beam. Length of beam is L. The beam is loaded with a triangular load from A to B (Q kN per meter).
Illustration of problem: http://goo.gl/xJ6u7x
2.
http://www.engineering.uiowa.edu/~de...orceMethod.pdf
3.
The problem is that there is four unknown reaction forces, so I can't solve by applying the three equations of equilibrium. I tried using the force method for statically indeterminate beams to find the reaction force in C. I don't know if it's correct, but I got Xc to be QL/40.
Attempt at a solution: http://goo.gl/oD7rPn
via Physics Forums RSS Feed http://www.physicsforums.com/showthread.php?t=713117&goto=newpost
0 commentaires:
Enregistrer un commentaire