In Figure below shafts (1) and (2) are identical solid 1.25 in. diameter steel [G = 11,500 ksi] shafts. Shaft (1) is fixed to a rigid support at A and shaft (2) is fixed to a rigid support at C. Shaft (1) has a length L1 = 4.25 ft, and shaft (2) has a length L2 = 2.75 ft. The allowable shear stress of the steel is 8,000 psi. The number of teeth on gears B and D is NB = 72 teeth and ND = 54 teeth, respectively. Determine the allowable magnitude of the torque TE.

In Figure below shafts (1) and (2) are identical solid 1.25 in. diameter steel [G = 11,500 ksi] shafts. Shaft (1) is fixed to a rigid support at A and shaft (2) is fixed to a rigid support at C. Shaft (1) has a length L1 = 4.25 ft, and shaft (2) has a length L2 = 2.75 ft. The allowable shear stress of the steel is 8,000 psi. The number of teeth on gears B and D is NB = 72 teeth and ND = 54 teeth, respectively. Determine the allowable magnitude of the torque TE.

Materials Science And Engineering Properties

1st Edition

ISBN:9781111988609

Author:Charles Gilmore

Publisher:Charles Gilmore

Chapter3: The Structure Of Real Materials

Section: Chapter Questions

Problem 3.12P

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In Figure below shafts (1) and (2) are identical solid 1.25 in.
diameter steel [G = 11,500 ksi] shafts. Shaft (1) is fixed to a rigid
support at A and shaft (2) is fixed to a rigid support at C. Shaft (1)
has a length L1 = 4.25 ft, and shaft (2) has a length L2 = 2.75 ft. The
allowable shear stress of the steel is 8,000 psi. The number of teeth
on gears B and D is NB = 72 teeth and ND = 54 teeth, respectively.
Determine the allowable magnitude of the torque TE.

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