3.22 The compound shaft, composed of steel, aluminum, and bronze segments, carries the two torques shown in the figure. If Tc = 250 lb- ft, determine the max- imum shear stress developed in each material. The moduli of rigidity for steel, alu- minum, and bronze are 12 × 10° psi, 4 × 10° psi, and 6 × 10° psi, respectively. %3D 500 lb · ft | Steel 1.0 in. Aluminum | 2 in. Bronze $1.0 in. B D 6 ft 4 ft – 3 ft –

Elements Of Electromagnetics
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Author:Sadiku, Matthew N. O.
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3.22 The compound shaft, composed of steel, aluminum, and bronze segments,
carries the two torques shown in the figure. If Tc = 250 lb- ft, determine the max-
imum shear stress developed in each material. The moduli of rigidity for steel, alu-
minum, and bronze are 12 × 10° psi, 4 × 10° psi, and 6 × 10° psi, respectively.
%3D
500 lb · ft
| Steel
1.0 in.
Aluminum
| 2 in.
Bronze
$1.0 in. B
D
C
6 ft
→le 4 ft →l– 3 ft –
Transcribed Image Text:3.22 The compound shaft, composed of steel, aluminum, and bronze segments, carries the two torques shown in the figure. If Tc = 250 lb- ft, determine the max- imum shear stress developed in each material. The moduli of rigidity for steel, alu- minum, and bronze are 12 × 10° psi, 4 × 10° psi, and 6 × 10° psi, respectively. %3D 500 lb · ft | Steel 1.0 in. Aluminum | 2 in. Bronze $1.0 in. B D C 6 ft →le 4 ft →l– 3 ft –
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