The compound shaft is attached to a rigid wall at each end. a = 2 m and b = 1.5 m. For the bronze segment AB, the diameter is 82 mm and G = 35 GPa. For the steel segment BC, the diameter is 62 mm and G = 83 GPa. The maximum shear stress is limited to 50 MPa in the bronze and 60 MPa in the steel. Compute the largest torque in kN-m that can be applied considering the maximum shear stress of the bronze segment. Compute the largest torque in kN-m that can be applied considering the maximum shear stress of the bronze segment. Compute the largest torque in kN-m that can be applied to the compound shaft.
The compound shaft is attached to a rigid wall at each end. a = 2 m and b = 1.5 m. For the bronze segment AB, the diameter is 82 mm and G = 35 GPa. For the steel segment BC, the diameter is 62 mm and G = 83 GPa. The maximum shear stress is limited to 50 MPa in the bronze and 60 MPa in the steel. Compute the largest torque in kN-m that can be applied considering the maximum shear stress of the bronze segment. Compute the largest torque in kN-m that can be applied considering the maximum shear stress of the bronze segment. Compute the largest torque in kN-m that can be applied to the compound shaft.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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The compound shaft is attached to a rigid wall at each end. a = 2 m and b = 1.5 m. For the bronze segment AB, the diameter is 82 mm and G = 35 GPa. For the steel segment BC, the diameter is 62 mm and G = 83 GPa. The maximum shear stress is limited to 50 MPa in the bronze and 60 MPa in the steel.
Compute the largest torque in kN-m that can be applied considering the maximum shear stress of the bronze segment.
Compute the largest torque in kN-m that can be applied considering the maximum shear stress of the bronze segment.
Compute the largest torque in kN-m that can be applied to the compound shaft. Choose from the choices given above.
Transcribed Image Text:The compound shaft is attached to a rigid wall at each end. a = 2 m and b = 1.5 m. For the bronze segment AB, the diameter is 82 mm and G = 35 GPa. For the steel segment BC, the diameter is 62 mm and G = 83 GPa. The
maximum shear stress is limited to 50 MPa in the bronze and 60 MPa in the steel.
75 mm
50 mm
Steel
A
Bronze
B
C
b.
1. Compute the largest torque
kN-m that can be applied considering the maximum shear stress of the bronze segment.
a. 8.07 kN-m
b. 11.01 kN-m
c. 7.26 kN-m
d. 8.60 kN-m
1. Compute the largest torque in kN-m that can be applied considering the maximum shear stress of the steel segment.
e. 5.11 kN-m
f. 5.52 kN-m
g. 4.67 kN-m
h. 4.08 kN-m
1. Compute the largest torque in kN-m that can be applied to the compound shaft.
choose from the choices given above.
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