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) and (2).
(b) the rotation angle of gear D with
respect to flange A.
The motor shown in the figure supplies 14.0 kW at 1880 rpm at A. Shafts (1)...
please help me how to solve 02. Motor is delivering 15 kw at 3000 rpm Shafts: d.-2.cm, L,-75 cm; d#3.0 cm, L2. 125 cm G 80 GPa Gear B: 25 teeth, Gear C: 50 teeth. a) Determine torques in each of the shafts. b) Determine the angle of twist of gear B at full load relative to the state of idle operation i.e. when To o c) Do the same for the gear D. Assume that gears ransmit motion without...
Your answer is partially correct. Try again. A motor supplies 178 ho at 540 rpm to flange A of the shaft. Gear B transfers 63hp of power to operating machinery in the factory, and the remaining pow in the factory, and the remaining power in the shaft is transferred by i te s stonuee th gear D. Shafts (1) and (2) are solid aluminum [G 4600 ksi] shafts that have the same diameter and an allowable shear stress of 5.9...
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. Assume that the bearings shown allow free rotation of the shafts. If a 400 N-m torque is applied at gear D, determine (a) the maximum shear stress magnitudes in each shaft. (b) the angles of twist ф, and ф (c) the...
I will rate you 2. A compound shaft consists of two solid shafts that re connected at flange B and se attached to rigid walls at A and C. Shaft (1) is a 3.00-in-diameter solid aluminum [G 4000 ksi] shaft that is 60 in. long. Shaft (2) is a 2.00-in-diameter solid bronze [G- 6500 ksi] shaft that is 40 in. long. If a concentrated torque of 32 kip-in is applied at flange B, determine: (a) The maximum shear stress magnitudes...
Question 1 The motor shown in Fig. 1 supplies power to Gear C through solid steel motor shaft GF (having a diamet of 200 mm) and Gear F. The torque delivered to Gear C is 200 kNm. Gears A, B, D and E supply powers to er three machines. The torques delivered by gear A, gear B and gear E to the machines are 60 kNm, 30 kNm and 40 kNm, respectively. Shaft ABCDE is also made of steel (G...
In the mechanical system represented in Figure 2(a), a motor supplies a torque of 45 kN-m, and powers two machines through gears D and E. The torque delivered to gear E is 8 kN-m The two shafts are made of steel, with E200 GPa, G 80 GPa and yield strength of 300 MPa The shaft AB has an outer diameter of 150 mm and an inner diameter of 80 mm; the shaft DCE has an outer diameter of 80 mm...
We were unable to transcribe this imageTwo solid steel shafts are fitted with flanges that are then connected by bolts as shown. The bolts are slightly undersized and permit a 1.5 rotation of one flange with respect to the other betore the flanges begin to rotate as a single unlt. Knowing that G 77.2 GPa, determine the maximum shearing stress in each shaft when a torque T of magnitude 600 N-m is applled to the flange Indicated The torque T...
Design Problem Design a speed reducer gear box that will take 1.5 kW power from an electric motor rotating at 3000 rpm (clockwise) and deliver it to a machine which operates at 2 different speeds, 1000 rpm (clockwise) and 500 rpm (counter-clockwise). Use Spur Gears with 20° pressure angle and 5mm module. Gear box should be of smallest possible size. The gear shift mechanism is not the part of the design A 2-speed double-reduction speed reducer is shown in the...
Question 2: The shaft ABC shown in the figure is driven by a motor that delivers 300kW at a rotational speed of 32 rev/sec. The gears at B and C take out 120k W and 180kW respectively. diameter of the shaft if the allowable shear stress is 50MPa, the allowable angle of twist between points A and C is 4° and G- 75GPa. of the two parts of the shaft are Li = 1.5m and L,-0.9m. Determine the required Motor...
DQuestion 1 1 pts Das O LcD LAB Two solid steel shafts are fitted with flanges that are then connected by bolts as shown. The bolts are slightly undersized and permit a 1.220 rotation of one flange with respect to the other before the flanges begin to rotate as a single unit. Knowing that G- 766 GPa, determine the maximum shearing stress in AB when a torque of T of magnitude 433 N-m is applied to flange C. Shaft AB...