Problem 4 (25%) is applied to the handle of the toggle clamp, determine the resulting clamping...
Problem 6-80 Statics The toggle clamp is subjected to a force F at the handle. Determine the vertical clamping force acting at E.
Chapter 4, Problem 4/099 Determine the magnitude of the vertical clamping force at E in terms of the force P applied to the handle of the toggle clamp 70 mm 125 mmP 10 mm 13 mm 6 mm \10 mm BI Answer: E
For the screw clamp shown, a force is applied at the end of the handle 3 in from the screw centerline. The 큼 in diameter handle is made of cold-drawn AISI 1006 steel. The screw is in-10 UNC and is 8 in long, overall. The maximum possible length of screw in the clamping region is 6 in. (a) What screw torque will cause the handle to bend permanently? (b) What clamping force will the answer to part (a) cause if...
If the clamping force on the pipe is 900 N, determine the horizontal force that must be applied perpendicular to the handle inorder to loosen the screw. The single square-threaded screw has a mean diameter of 24 o mm and a lead of 4 mm. The coefficient of static friction is Hs 0.3. (Note: The screw is a two-force member since it is contained within pinned collars at A and B.) [Hint: Start with a FBD of member ED.] 4....
For the screw clamp shown, a force is applied at the end of the handle 3 in from the screw centerline. The 큼 in diameter handle is made of cold-drawn AISI 1006 steel. The screw is in-10 in (a) What screw torque will cause the handle to bend permanently? er to part (a) cause if the thread friction is 0.15? (c) What clamping force will cause the screw to buckle? (d) Are there any other stresses or possible failures to...
Problem 2. (30%) Determine the required force P that must be applied at the handle of the pruning shears so that the blade exerts a normal force of 50 lb on the twig at E. Determine the horizontal and vertical components of force which the pins at A and D exert on member JADG. Present a F.B.D. for each analysis performed. -22 EMPO G PE-7Mo-in 0.5 in. 0.5 in. H 4 in. 1 in. 0.75 in. 0.75 in. とこ。 0.7...
Problem #1(10pts) Consider the system shown in the figure consisting of a circular cross section eylinder with center ABC. A counterclockwise torque of 10 kN-m is applied to the cylinder at D Determine the force (P) applied at point B on the bar to prevent rot cylinder equal to 0.25 m and the coefficient of static friction equal to 0.40 ation of the cylinder. Take the radius of the 0.15 m , Hint: You need to consider free body diagram...
Problem 2) System of Statically INDETERMINATE Axially Loaded Members (32 points) A load of 20kN is applied to the rigid bar ABC at point C. At point A, the bar is pinned to the wall and will rotate freely. The rigid bar is supported by two bars made of steel (E- 200GPa). Both bars have cross-sectional area of 100 mm2 and length of 1000 mm. Length of section AB is 1000 mm, and length of section BC 2000 mm. Find...
1) Use equilibrium to solve for the unknown torque at Point C of the problem in the Appendix. Sum moments about the X-axis and given that the shaft is in equilibrium, determine the torque that must be applied at Point C. You can assume that the shaft is not connected to any other features although in a real-world application there would need to be bearing that keep the shaft from ‘wandering off.’ But note that there are no ‘forces’ applied...
Guys please help Name Problem 1 (25 points) A rigid beam is supported by three posts A. B and C, and subjected to load P (P-130 KN). Post A and C have a diameter 60 m Post B has a diameter 30 and are made of aluminum (Young's modulus Eal-70 GPa). mm and is made of brass (Young's modulus E-100 GPa). (1) Draw free body diagram for the rigid beam and write down the equilibrium equation (1o points) (2) Is...