Problem 1 (25 Points) Two solid steel (6-80 GPa) shafts are connected by the gears shown. Shaft (1) has a diameter of 45 mm, and shaft (2) has an outside diameter of 55 mm and wall thickness 4 mm...
75 mm 1.5 m T = 48 N·m 2 m 150 mm Two solid steel 20-mm-diameter shafts are coupled together using the perfectly meshed gears shown. Shaft DC is fixed to the wall at D and supported with a frictionless journal bearing. Shaft EF is supported with two frictionless journal bearings. The modulus of rigidity of steel is 80 GPa. Before the torque is applied, the angle of twist in each shaft is zero, and the angle of rotation of...
P2. Two solid steel shafts, each of 30-mm diameter, are connected by the gears shown. Knowing that G- 77.2 GPa, determine the angle through which end A rotates when a torque of magnitude T= 200 N.m is applied at A. 0.2 m 30 mm 0.4 m 0.2m 60 mm 0.1m 90 mm 30 mm 0.5 m
The solid steel shafts (G=77GPa) are surrounded by the gears shown. A torque T=340 N.m is applied at point A, determine: 1. The shear stress in shaft EC; 2. The angle through which end A rotates. The solid steel shafts (G-77GPa) are sITounded by the gears shown. A torque T 340 N.m is applied at point A, determine: 1. The shear stress in shaft EC 2. The angle through which end A rotates. 30 mm 200 mm 400 mm 60...
Required information Two solid steel shafts are connected by the gears shown. A torque of magnitude T = 960 N.m is applied to shaft AB. The allowable shearing stress is 50 MPa. 240 mm 80 mm Considering only stresses due to twisting, determine the required diameter of shaft CD. The diameter of shaft CD is mm.
The two shafts are made of A-36 steel. Each has a diameter of 23 mm and they are connected using the gears fixed to their ends. Their other ends are attached to fixed supports at A and B. They are also supported by journal bearings at C and D, which allow free rotation of the shafts along their axes. A torque of 500 N·m is applied to the gear at E as shown in the figure below. The shear modulus...
The two shafts are made of A-36 steel. Each has a diameter of 23 mm and they are connected using the gears fixed to their ends. Their other ends are attached to fixed supports at A and B. They are also supported by journal bearings at C and D, which allow free rotation of the shafts along their axes. A torque of 500 N·m is applied to the gear at E as shown in the figure below. The shear modulus...
2. (25 Points) The splined ends and gears attached to the A992 steel shaft are subjected to the torques shown. Determine the angle of twist of end B with respect to end A. The shaft has a diameter of 40 mm. For A992 steel, G = 75 GPa. 400 N·m 1200 N·m 600 N.m 600 mm 200 N·m 500 mm 400 mm
The motor shown in the figure supplies 14.0 kW at 1880 rpm at A. Shafts (1) and (2) are each solid 26 mm diameter shafts. Shaft (1) is made of an aluminum alloy [?G=26??GPa], and shaft (2) is made of bronze [?G=45??GPa]. The shaft lengths are L1=3.1m and L2=2.7m, respectively. Gear B has 55 teeth, and gear C has 99 teeth. The bearings shown permit free rotation of the shafts. Determine: (a) the maximum shear stress produced in shafts (1)...
The splined ends and gears attached to the A992 steel shaft are subjected to the torques shown. If the shaft has a diameter of 40 mm. [10 marks] a-Draw the torque diagram. [2 marks] b-Determine the angle of twist of end B with respect to end A. [3 marks] C- Determine the maximum shear stress the shaft is subjected to. [2 marks] d- If the allowable shear stress in the shaft is 300 MPa, and the allowable angle of twist...
P6.042 The composite shaft shown in the figure consists of two steel pipes that are connected at flange B and securely attached to rigid walls at A and C. Steel pipe (1) has an outside diameter of 173 mm and a wall thickness of 6 mm. Steel pipe (2) has an outside diameter of 101 mm and a wall thickness of 7 mm. Both pipes are 3.4 m long and have a shear modulus of 80 GPa. If a concentrated...