-Draws the FBD of the rigid bodies and the full structure
-Find the reactions in the supports and the internal forces in the hinge
-Draws the FBD of the rigid bodies and the full structure-Find the reactions in the...
Problem #1 a) Dram the FBD of the rigid bodies and the complete structure. b) Find the reactions in the supports and the internal forces in the hinge! lon ܠܠܠ\0 - - - - 31 3 3'
Two rigid bodies, 2 and 3, are connected by three springs as shown in the figure. A horizontal force of 1,000 N is applied on Body 3 as shown in the figure. Find the displacements of the three bodies and the forces (tensile/compressive) in the springs. What is the reaction at the wall? Assume the bodies can undergo only translation in the horizontal direction. The spring constants (N/mm) are kg = 400 kg = 500 ks = 500 N mm...
A) please draw all FBDneeded to compute the reactions.
B) please compute the reaction forces at supports A and F and
internal hinge at C.
4.0 ft 6.0 ft 30 k-ft 2 k/ft hinge or pin 4.5 ft 8.0 ft 6 k 6 k/ft 4.5 ft 4.0 ft hinge or pin hinge or pin
1. Draw the FBD (s) of the beam system below and find the reactions at A. B and D. Please note that A B, and D are pins, C is rigid joint. (10) NOTE BE CAREFUL WITH THE UNITS ON THE DISTRIBUTED LOAD it is in kN/m and the point loads are in kN. (10) 10 kN 20 kN 2 m -2 m -- 2 m 10 k C 3 kN/m 4m D A -3 m
1. Draw the FBD...
Note: You must include a clear FBD for each problem to receive full credit. 1. There are four forces and a moment acting on the beam shown below. The sum of al the forces is zero and the sum of all moment at point A is also zero. Find the forces Ax, Ay, and B. 00N Ax 800 N 200 N-m Ay. 1. Two tow trucks lift a motorcycle out of a ravine following an accident. If the 981 N...
Elastic bodies
1. ) Determine the reactions at A and B for the steel bar and loading shown in the Figure (Prob. 1), assuming a close fit at both supports before the loads are applied (2) Draw axial force diagram. (3) Find displacement at point C
Dynamic
Kinematics of Rigid Bodies it Using Caloulus, Ineate to find the angular position 6) assuming that l(t-0) Find the maximum.When e-O, what is t.
Problem 1 The rigid structure shown in the figure below is loaded with a concentric couple applied at H of 75 kNm and a concentric horizontal force of 40 kN. A distributed load spans from point D through E with minimum amplitude of 10 kN/m and a maximum of 30 kN/m, respectively. The structure is externally supported by a roller at A, the cable BC and a pin at G. Please do the following: 1. Draw a neat Free Body...
Write out a hand solution for the following problem. For the figure, the rigid pole AB is attached to two cables: one going down to Cland one going down the D. Point A is a frictionless ball and socket joint (a 3D pinned support, if you will), . Draw an appropriate FBD labeling the internal cable tensions (Ti and T:) as well as the forc e reactions at A (x, y, and force reactions). Show all force vectors, resultants, and...