ow step by step solution with free body diagram 03 In Fig.P4-03 the electric motor exerts a torque of3,000 N.m on the steel shaft ABCD when it is rotating atconstant speed.ermine the total angle of twist between points A and D.For steel,G = 79 GPa.If the torques at B and C are as shown, det-1,800 N.m1, 200 N.md=38mmd=50 mmd=64mm0.25 m0.30 m0.20 mElectricmotorFig.03 For the composite section shown in Fig.P4-04 a torque04T = 8,000 N.m is applied at end B. If G = 79 GPa for steeland 26 GPa for aluminum, determine (a) the maximum shearingstress in the steel core, (b) the maximum shearing stress inthe aluminum shell, and the angle of tvist at B.80 mm¥60 mmSteelAluminumFig.-042.50 m

Note: Dear Student! As per our guidelines, we are only allowed to answer a single question. Kindly…

03 In Fig.P4-03 the electric motor exerts a torque of 3,000 N.m on the steel shaft ABCD when it is rotating at constant speed. ermine the total angle of twist between points A and D. For steel, G 79 GPa. If the torques at B and C are as shown, det- 1,800 N.m 1,200 N.m d=50 mm d=38 mm 0.20 m d=64 mm 0.25 m 0.30 m Electric motor rig. 03

03 In Fig.P4-03 the electric motor exerts a torque of 3,000 N.m on the steel shaft ABCD when it is rotating at constant speed. ermine the total angle of twist between points A and D. For steel, G 79 GPa. If the torques at B and C are as shown, det- 1,800 N.m 1,200 N.m d=50 mm d=38 mm 0.20 m d=64 mm 0.25 m 0.30 m Electric motor rig. 03

Mechanics of Materials (MindTap Course List)

9th Edition

ISBN:9781337093347

Author:Barry J. Goodno, James M. Gere

Publisher:Barry J. Goodno, James M. Gere

Chapter3: Torsion

Section: Chapter Questions

Problem 3.12.4P: The stepped shaft shown in the figure is required to transmit 600 kW of power at 400 rpm. The shaft...

See similar textbooks

Similar questions

The steel axle of a large winch on an ocean liner is subjected to a torque of 1.65 kN · m (see figure). What is the minimum required diameter dminif the allowable shear stress is 48 M Pa and the allowable rate of twist is 0.75º/m? (Assume that the shear modulus of elasticity is 80 G Pa.) Repeat part (a) if the shaft is now hollow with an inner diameter of 5d/8, Compare dminvalues to corresponding values from part (a)
The stepped shaft shown in the figure is required to transmit 600 kW of power at 400 rpm. The shaft has a full quarter-circular fillet, and the smaller diameter D1= 100 mm. If the allowable shear stress at the stress concentration is 100 MPa, at what diameter will this stress be reached? Is this diameter an upper or a lower limit on the value of D2?
A thin-walled rectangular tube has uniform thickness t and dimensions a x b to the median line of the cross section (see figure). How does the shear stress in the tube vary with the ratio = a/b if the total length Lmof the median line of the cross section and the torque T remain constant? From your results, show that the shear stress is smallest when the tube is square (ß = 1).
What is the maximum power that can be delivered by a hollow propeller shaft (outside diameter 50 mm, inside diameter 40 mm, and shear modulus of elasticity 80 GPa) turning at 600 rpm if the allowable shear stress is 100 MPa and the allowable rate of twist is 3.0°/m?
Two sections of steel drill pipe, joined by bolted flange plates at Ä are being tested to assess the adequacy of both the pipes. In the test, the pipe structure is fixed at A, a concentrated torque of 500 kN - m is applied at x = 0.5 m, and uniformly distributed torque intensity t1= 250 kN m/m is applied on pipe BC. Both pipes have the same inner diameter = 200 mm. Pipe AB has thickness tAB=15 mm, while pipe BC has thickness TBC= 12 mm. Find the maximum shear stress and maximum twist of the pipe and their locations along the pipe. Assume G = 75 GPa.
The shear stresses t in a rectangular beam arc given by Eq. (5-43): in which Fis the shear force, / is the moment of inertia of the cross-sectional area, /lis the height of the beam, and i] is the distance from the neutral axis to the point where the shear stress is being determined (Fig. 5-32). By integrating over the cross-sectional area, show that the resultant of the shear stresses is equal to the shear force V.
A hollow tube ABCDE constructed of monel metal is subjected to five torques acting in the directions shown in the figure. The magnitudes of the torques are T1= 1000 lb-in., T2= T4= 500 lb-in., and T3= T5= 800 lb-in. The tube has an outside diameter of d2= 1.0 in. The allowable shear stress is 12,000 psi and the allowable rate of twist is 2.0°/ft. Determine the maximum permissible inside diameter d1, of the tube.
A circular aluminum tube subjected to pure torsion by torques T(sec figure) has an outer radius r2equal to 1.5 times the inner radius r1. (a) If the maximum shear strain in the tube is measured as 400 × 10-6 rad, what is the shear strain y1at the inner surface? (b) If the maximum a1lo-abk rate of twist is 0.125 °/m and the maximum shear strain is to be kept at 400 × 10-6 rad by adjusting the torque T, that is the minimum required outer radius ( r2)Min?
A solid brass bar of diameter d = 1.25 in. is subjected to torques T1as shown in part a of the figure. The allowable shear stress in the brass is 12 ksi. What is the maximum permissible value of the torques T1? If a hole of diameter 0.625 in. is drilled longitudinally through the bar, as shown in part b of the figure, what is the maximum permissible value of the torques T2? What is the percent decrease in torque and the percent decrease in weight due to the hole?
Solve the preceding problem if the length L = 56 in., the inner radius r1— 1.25 in., the angle of twist is 0.5°, and the allowable shear strain is 0.0004 rad.
A motor driving a solid circular steel shaft with diameter d = 1.5 in, transmits 50 hp to a gear at B, The allowable shear stress in the steel is 6000 psi. Calculate the required speed of rotation (number of revolutions per minute) so that the shear stress in the shaft does not exceed the allowable limit.
A flange bolt coupling consists of 12-14mm diameter steel bolts on a bolt circle 320mm in diameter and 8-12mm diameter on a concentric bolt circle 260mm in diameter. What torque can be applied without exceeding a shearing stress of 60MPa in the bolts? B) Determine the number of 10mm steel bolts that must be used on the 320mm bolt circle of the coupling to increase the torque capacity by 6KN-m.