We need at least 10 more requests to produce the answer.
0 / 10 have requested this problem solution
The more requests, the faster the answer.
Find resultant and position of the force from A 300 lb/ft w- 3x2 Ib/ft 10 ft
3.23 Determine the resultant of the force system acting on the beam. 5.5 ft 1000 lb 8.2 ft 600 lb 4.5 ftT 1000 lb 1200 lb Figure P3.23
300 lb Problem 3. A 2-D force system with geometry is shown. Find the equiv resultant force and moment acting at A and then the equivalent single for measured from A. (30 points) 200 lb 50 lb 311 311 3 ft 30° 100 lb
w = 50 lb/ft P = 57 lb L= 7 ft a = 5 ft b = 1 ft ? = 63 deg w lb/ft P lb L ft b ft Ay COLLAPSE IMAGES The horizontal reaction at A. b ENTER The vertical reaction at A b ENTER The vertical reaction at B ENTER Develop the shear and mement equations along the beam. Section 1 Range 3 resremaningon section Currentceam score: t CHECK RANGE
Calculate the resultant force of the force shown. Assume F1 = 246 lb and F2 = 71 lb. Also, make a sketch of the resultant force showing it is the direction.
this part. The system shown is at rest when a constant force E 50 lb is applied to collar B. Pre2 Next > 3 of 5 2 ft 18 lb 6 lb A If the force acts through the entire motion, determine the speed of collar B as it strikes the support i C The speed of collar B is2.24 ft/s. After what distance d should the 50 lb force be removed if the collar is to reach support C...
The bulldozer shown in E10.1.9 pushes a dirt with a resultant horizontal force of 500 lb. The frame ts of push-arm ABC, hydraulic arms BD and EG DE. All connections (A, B, C, L D, and G) frictionless pins. lgnore the weight of the members ine the axial force. shear force, and bending mo- ent acting on the cross section of the beam ABC just to loa and blade the right of point B. 3 4 500 Ib 5 in....
In Figure 2, if P=5 lb, Q = 10 lb and b = 2 ft, determine the couple moment. р Tb so 1.56 1-2 6 1 1 .56
Two couples act on the cantilevered beam as shown. Find the magnitude of F so that the resultant couple moment is 500 lb-ft.
3. Determine the magnitude and direction of the resultant force for the concurrent force system shown below. Use the method of components. 250 lbs 200 lbs 3 400 lbs 4 42° 325 lbs