°. Determine the magnitude of the largest torque TA that may be applied at A.
°. Determine the magnitude of the largest torque TA that may be applied at A.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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![P6.9 (WP) A compound shaft (Figure P6.9) consists of two segments. Segment (1) is a solid bronze [G = 45 GPa] shaft with an outside diameter of 80 mm, a length L₁ = 780 mm, and an
allowable shear stress of 65 MPa. Segment (2) is a solid aluminum alloy [G = 26 GPa ksi] shaft with an outside diameter of 95 mm, a length L₂ = 620 mm, and an allowable shear stress of 40
MPa. The maximum rotation angle at the free end of the compound shaft must be limited to A ≤ 2.5°. Determine the magnitude of the largest torque TA that may be applied at A.
(1)
4₁
FIGURE P6.9](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F2dfc5819-ea8e-47fe-bddc-8a9de104e7f1%2Fb298a565-c94f-476c-90f5-3746761ed0dd%2Fhtq5jig_processed.png&w=3840&q=75)
Transcribed Image Text:P6.9 (WP) A compound shaft (Figure P6.9) consists of two segments. Segment (1) is a solid bronze [G = 45 GPa] shaft with an outside diameter of 80 mm, a length L₁ = 780 mm, and an
allowable shear stress of 65 MPa. Segment (2) is a solid aluminum alloy [G = 26 GPa ksi] shaft with an outside diameter of 95 mm, a length L₂ = 620 mm, and an allowable shear stress of 40
MPa. The maximum rotation angle at the free end of the compound shaft must be limited to A ≤ 2.5°. Determine the magnitude of the largest torque TA that may be applied at A.
(1)
4₁
FIGURE P6.9
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