Explanations and formulas used are greatly appreciated.
Explanations and formulas used are greatly appreciated. The figure below shows a 1-in. solid round shaft...
Figure 3 4. Figure 4 shows a 1.5 in diameter shaft supported by self-aligning ball bearings A and B. There are two chain sprockets, which are attached to the shaft and loaded as shown. Determine the force F. Model this shaft as a simply supported beam. Determine the bearing reactions RA and RB. (OC: A, E), (Ans: RA 1083.3, RB 1916.67 lb,) SHAFT SPROCKET # \ SPROc KET+#2 2 in, 2000 lb 3 in. 4 in. Sin Figure 3 4....
Figure 3 4. Figure 4 shows a 1.5 in diameter shaft supported by self-aligning ball bearings A and B. There are two chain sprockets, which are attached to the shaft and loaded as shown. Determine the force F. Model this shaft as a simply supported beam. Determine the bearing reactions RA and RB. (OC: A, E), (Ans: RA 1083.3, RB 1916.67 lb,) SHAFT SPROCKET # \ SPROc KET+#2 2 in, 2000 lb 3 in. 4 in. Sin
The rotating shaft shown below is supported by self aligning bearings at A and D. The diameter of the shaft changes from D-1.5" to d-1.0" at the midpoint of the shaft. The radius of the fillet at the diameter change is r-0.2" and all surfaces are machined. The shaft is made of normalized 1020 steel having . 64.0 ksi and S, = 50.3 ksi . The shaft is loaded with 250-lb forces at B and C as shown to create...
Question 1 Time Allowed: 2 hours The figure shows a transmission shaft. The steel solid shaft is 200 mm long between self-aligning bearings at A and B. Belt forces (in the same horizontal direction) are applied to a 120-mm diameter sheave at C. The left end of the shaft is connected to an electric motor attached to a clutch by means of a flexible coupling. Nothing is attach to the right end (it is free). Assuming the shaft has a...
1) The shaft shown in the figure is machined from AISI 1040 CD steel. The shaft rotates at 1600 rpm and is supported in rolling bearings at A and B. The applied forces are F1-1000 lbf and F2-400 lbf. The torque, 100 lbf.in, is also applied between C and D. Determine the minimum fatigue factor of safety based on: a) Soderburg b) Modified-Goodman c) Gerber d) ASME-DE (ASME-DE criteria e) If infinite life is not predicted, estimate the number of...
The figure shows a transmission shaft. The steel solid shaft is 200 mm long between self-aligning bearings at A and B. Belt forces (in the same horizontal direction) are applied to a 120-mm diameter sheave at C. The left end of the shaft is connected to an electric motor attached to a clutch by means of a flexible coupling. Nothing is attached to the right end (it is free). Assuming the shaft has a constant diameter, d, (a) Perform the...
Problem 1 (a) (200 points) Shaft fatigue strength In the figure below, a rotating shaft (for speed reducing gearbox) is subjected to radial forces at A-400 lbrand at C-800 iht. These radial forces are caused by spur gears mounted to shar (a result of the pressure angle of the teeth, 20 degrees) that mesh with 2 other spur gears, not shown. Also, The shaft transmits a constant torque of 11110 in-Ibr (925 - due to the tangential force (s: transmitted...