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Deck 9: Torsion

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Question
A motor drives a shaft at f 5 10 Hz and delivers P 5 35 kW of power. The allowable shear stress in the shaft is 45 MPa. The minimum diameter of the shaft is approximately: A motor drives a shaft at f 5 10 Hz and delivers P 5 35 kW of power. The allowable shear stress in the shaft is 45 MPa. The minimum diameter of the shaft is approximately: (A) 35 mm (B) 40 mm (C) 47 mm (D) 61 mm<div style=padding-top: 35px>
(A) 35 mm
(B) 40 mm
(C) 47 mm
(D) 61 mm
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Question
A motor drives a shaft with diameter d 5 46 mm at f 5 5.25 Hz and delivers P 5 25 kW of power. The maximum shear stress in the shaft is approximately: A motor drives a shaft with diameter d 5 46 mm at f 5 5.25 Hz and delivers P 5 25 kW of power. The maximum shear stress in the shaft is approximately: <div style=padding-top: 35px> A motor drives a shaft with diameter d 5 46 mm at f 5 5.25 Hz and delivers P 5 25 kW of power. The maximum shear stress in the shaft is approximately: <div style=padding-top: 35px>
Question
steel tube with diameters steel tube with diameters 5 52 mm is twisted by torques at the ends. The diameter of a solid steel shaft that resists the same torque at the same maximum shear stress is approximately: (A) 56 mm (B) 62 mm (C) 75 mm (D) 82 m.m<div style=padding-top: 35px> 5 52 mm is twisted by torques at the ends. The diameter of a solid steel shaft that resists the same torque at the same maximum shear stress is approximately: steel tube with diameters 5 52 mm is twisted by torques at the ends. The diameter of a solid steel shaft that resists the same torque at the same maximum shear stress is approximately: (A) 56 mm (B) 62 mm (C) 75 mm (D) 82 m.m<div style=padding-top: 35px>
(A) 56 mm
(B) 62 mm
(C) 75 mm
(D) 82 m.m
Question
brass pipe is twisted by torques T 5 800 N ? m acting at the ends causing an angle of twist of 3.5 brass pipe is twisted by torques T 5 800 N ? m acting at the ends causing an angle of twist of 3.5 . The pipe has the following properties: 56 mm. The shear modulus of elasticity G Of the pipe is approximately: <div style=padding-top: 35px> . The pipe has the following properties: brass pipe is twisted by torques T 5 800 N ? m acting at the ends causing an angle of twist of 3.5 . The pipe has the following properties: 56 mm. The shear modulus of elasticity G Of the pipe is approximately: <div style=padding-top: 35px> 56 mm. The shear modulus of elasticity G
Of the pipe is approximately: brass pipe is twisted by torques T 5 800 N ? m acting at the ends causing an angle of twist of 3.5 . The pipe has the following properties: 56 mm. The shear modulus of elasticity G Of the pipe is approximately: <div style=padding-top: 35px> brass pipe is twisted by torques T 5 800 N ? m acting at the ends causing an angle of twist of 3.5 . The pipe has the following properties: 56 mm. The shear modulus of elasticity G Of the pipe is approximately: <div style=padding-top: 35px>
Question
angle of rotation between the ends of a nylon bar is angle of rotation between the ends of a nylon bar is . The bar diameter is 70 mm and the allowable shear strain is 0.014 rad. The minimum permissible length of the bar is approximately: (A) 0.15 m (B) 0.27 m (C) 0.40 m (D) 0.55 m<div style=padding-top: 35px> . The bar diameter is 70 mm and the allowable shear strain is 0.014 rad. The minimum permissible length of the bar is approximately: angle of rotation between the ends of a nylon bar is . The bar diameter is 70 mm and the allowable shear strain is 0.014 rad. The minimum permissible length of the bar is approximately: (A) 0.15 m (B) 0.27 m (C) 0.40 m (D) 0.55 m<div style=padding-top: 35px>
(A) 0.15 m
(B) 0.27 m
(C) 0.40 m
(D) 0.55 m
Question
brass bar twisted by torques T acting at the ends has the following properties: brass bar twisted by torques T acting at the ends has the following properties: and 41 GPa. The torsional stiffness of the bar is approximately: <div style=padding-top: 35px> and brass bar twisted by torques T acting at the ends has the following properties: and 41 GPa. The torsional stiffness of the bar is approximately: <div style=padding-top: 35px> 41 GPa. The torsional stiffness of the bar is approximately: brass bar twisted by torques T acting at the ends has the following properties: and 41 GPa. The torsional stiffness of the bar is approximately: <div style=padding-top: 35px> brass bar twisted by torques T acting at the ends has the following properties: and 41 GPa. The torsional stiffness of the bar is approximately: <div style=padding-top: 35px>
Question
aluminum bar of diameter aluminum bar of diameter 52 mm is twisted by torques at the ends. The allowable shear stress (A) 1450 N ? m (B) 1675 N ? m (C) 1710 N ? m (D) 1800 N . m<div style=padding-top: 35px> 52 mm is twisted by torques aluminum bar of diameter 52 mm is twisted by torques at the ends. The allowable shear stress (A) 1450 N ? m (B) 1675 N ? m (C) 1710 N ? m (D) 1800 N . m<div style=padding-top: 35px> at the ends. The allowable shear stress aluminum bar of diameter 52 mm is twisted by torques at the ends. The allowable shear stress (A) 1450 N ? m (B) 1675 N ? m (C) 1710 N ? m (D) 1800 N . m<div style=padding-top: 35px> aluminum bar of diameter 52 mm is twisted by torques at the ends. The allowable shear stress (A) 1450 N ? m (B) 1675 N ? m (C) 1710 N ? m (D) 1800 N . m<div style=padding-top: 35px>
(A) 1450 N ? m
(B) 1675 N ? m
(C) 1710 N ? m
(D) 1800 N . m
Question
brass rod of length L 5 0.75 m is twisted by torques T until the angle of rotation between the ends of the rod is 3.5 brass rod of length L 5 0.75 m is twisted by torques T until the angle of rotation between the ends of the rod is 3.5 . The allowable shear strain in the copper is 0.0005 rad. The maximum permissible diameter of The rod is approximately: S (A) 6.5 mm (B) 8.6 mm (C) 9.7 mm (D) 12.3 mm<div style=padding-top: 35px> . The allowable shear strain in the copper is 0.0005 rad. The maximum permissible diameter of
The rod is approximately: brass rod of length L 5 0.75 m is twisted by torques T until the angle of rotation between the ends of the rod is 3.5 . The allowable shear strain in the copper is 0.0005 rad. The maximum permissible diameter of The rod is approximately: S (A) 6.5 mm (B) 8.6 mm (C) 9.7 mm (D) 12.3 mm<div style=padding-top: 35px> S
(A) 6.5 mm
(B) 8.6 mm
(C) 9.7 mm
(D) 12.3 mm
Question
gear shaft transmits torques gear shaft transmits torques the allowable shear stress is 50 MPa, the required shaft diameter is approximately: (A) 38 mm (B) 44 mm (C) 46 mm (D) 48 mm<div style=padding-top: 35px> the allowable shear stress is 50 MPa, the required shaft diameter is approximately: gear shaft transmits torques the allowable shear stress is 50 MPa, the required shaft diameter is approximately: (A) 38 mm (B) 44 mm (C) 46 mm (D) 48 mm<div style=padding-top: 35px>
(A) 38 mm
(B) 44 mm
(C) 46 mm
(D) 48 mm
Question
A hollow aluminum shaft ( A hollow aluminum shaft ( 52 mm) has an angle of twist per unit length of 1.8° /m due to torques T. The resulting maximum tensile stress in the shaft is approximately: <div style=padding-top: 35px> 52 mm) has an angle of twist per unit length of 1.8° A hollow aluminum shaft ( 52 mm) has an angle of twist per unit length of 1.8° /m due to torques T. The resulting maximum tensile stress in the shaft is approximately: <div style=padding-top: 35px> /m due to torques T. The resulting maximum tensile stress in the shaft is approximately: A hollow aluminum shaft ( 52 mm) has an angle of twist per unit length of 1.8° /m due to torques T. The resulting maximum tensile stress in the shaft is approximately: <div style=padding-top: 35px> A hollow aluminum shaft ( 52 mm) has an angle of twist per unit length of 1.8° /m due to torques T. The resulting maximum tensile stress in the shaft is approximately: <div style=padding-top: 35px>
Question
Torques T 5 5.7 kN ∙ m are applied to a hollow aluminum shaft ( Torques T 5 5.7 kN ∙ m are applied to a hollow aluminum shaft ( allowable shear stress is 45 MPa and the allowable normal strain is 8.0 . The required outside diameter of the shaft is approximately: (A) 38 mm (B) 56 mm (C) 87 mm (D) 91 mm<div style=padding-top: 35px> allowable shear stress is 45 MPa and the allowable normal strain is 8.0 Torques T 5 5.7 kN ∙ m are applied to a hollow aluminum shaft ( allowable shear stress is 45 MPa and the allowable normal strain is 8.0 . The required outside diameter of the shaft is approximately: (A) 38 mm (B) 56 mm (C) 87 mm (D) 91 mm<div style=padding-top: 35px> . The required outside diameter Torques T 5 5.7 kN ∙ m are applied to a hollow aluminum shaft ( allowable shear stress is 45 MPa and the allowable normal strain is 8.0 . The required outside diameter of the shaft is approximately: (A) 38 mm (B) 56 mm (C) 87 mm (D) 91 mm<div style=padding-top: 35px> of the shaft is approximately: Torques T 5 5.7 kN ∙ m are applied to a hollow aluminum shaft ( allowable shear stress is 45 MPa and the allowable normal strain is 8.0 . The required outside diameter of the shaft is approximately: (A) 38 mm (B) 56 mm (C) 87 mm (D) 91 mm<div style=padding-top: 35px>
(A) 38 mm
(B) 56 mm
(C) 87 mm
(D) 91 mm
Question
Bending stresses, combined stress, composite sections (A) 0.9 (B) 1.2 (C) 1.4 (D) 2.1<div style=padding-top: 35px> Bending stresses, combined stress, composite sections (A) 0.9 (B) 1.2 (C) 1.4 (D) 2.1<div style=padding-top: 35px> Bending stresses, combined stress, composite sections (A) 0.9 (B) 1.2 (C) 1.4 (D) 2.1<div style=padding-top: 35px> Bending stresses, combined stress, composite sections
(A) 0.9
(B) 1.2
(C) 1.4
(D) 2.1
Question
stepped steel shaft ( stepped steel shaft ( 32 mm is twisted by torques T at each end. Segment lengths are 0.75 m. If the allowable shear stress is 28 MPa and Maximum allowable twist is 1.8°, the maximum permissible torque is approximately: <div style=padding-top: 35px> 32 mm is twisted by torques T at each end. Segment lengths are stepped steel shaft ( 32 mm is twisted by torques T at each end. Segment lengths are 0.75 m. If the allowable shear stress is 28 MPa and Maximum allowable twist is 1.8°, the maximum permissible torque is approximately: <div style=padding-top: 35px> 0.75 m. If the allowable shear stress is 28 MPa and
Maximum allowable twist is 1.8°, the maximum permissible torque is approximately: stepped steel shaft ( 32 mm is twisted by torques T at each end. Segment lengths are 0.75 m. If the allowable shear stress is 28 MPa and Maximum allowable twist is 1.8°, the maximum permissible torque is approximately: <div style=padding-top: 35px> stepped steel shaft ( 32 mm is twisted by torques T at each end. Segment lengths are 0.75 m. If the allowable shear stress is 28 MPa and Maximum allowable twist is 1.8°, the maximum permissible torque is approximately: <div style=padding-top: 35px>
Question
stepped steel shaft with diameters stepped steel shaft with diameters m and m acting in opposite directions. The maximum shear stress is approximately: <div style=padding-top: 35px> m and stepped steel shaft with diameters m and m acting in opposite directions. The maximum shear stress is approximately: <div style=padding-top: 35px> m acting in opposite directions. The maximum shear stress is approximately: stepped steel shaft with diameters m and m acting in opposite directions. The maximum shear stress is approximately: <div style=padding-top: 35px> stepped steel shaft with diameters m and m acting in opposite directions. The maximum shear stress is approximately: <div style=padding-top: 35px>
Question
A drive shaft running at 2500 rpm has outer diameter of 60 mm and inner diameter of 40 mm. The allowable shear stress in the shaft is 35 MPa. The maximum power that can be transmitted is approximately: A drive shaft running at 2500 rpm has outer diameter of 60 mm and inner diameter of 40 mm. The allowable shear stress in the shaft is 35 MPa. The maximum power that can be transmitted is approximately: (A) 220 kW (B) 240 kW (C) 288 kW (D) 312 kW<div style=padding-top: 35px>
(A) 220 kW
(B) 240 kW
(C) 288 kW
(D) 312 kW
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Deck 9: Torsion
1
A motor drives a shaft at f 5 10 Hz and delivers P 5 35 kW of power. The allowable shear stress in the shaft is 45 MPa. The minimum diameter of the shaft is approximately: A motor drives a shaft at f 5 10 Hz and delivers P 5 35 kW of power. The allowable shear stress in the shaft is 45 MPa. The minimum diameter of the shaft is approximately: (A) 35 mm (B) 40 mm (C) 47 mm (D) 61 mm
(A) 35 mm
(B) 40 mm
(C) 47 mm
(D) 61 mm
B
2
A motor drives a shaft with diameter d 5 46 mm at f 5 5.25 Hz and delivers P 5 25 kW of power. The maximum shear stress in the shaft is approximately: A motor drives a shaft with diameter d 5 46 mm at f 5 5.25 Hz and delivers P 5 25 kW of power. The maximum shear stress in the shaft is approximately: A motor drives a shaft with diameter d 5 46 mm at f 5 5.25 Hz and delivers P 5 25 kW of power. The maximum shear stress in the shaft is approximately:
B
3
steel tube with diameters steel tube with diameters 5 52 mm is twisted by torques at the ends. The diameter of a solid steel shaft that resists the same torque at the same maximum shear stress is approximately: (A) 56 mm (B) 62 mm (C) 75 mm (D) 82 m.m 5 52 mm is twisted by torques at the ends. The diameter of a solid steel shaft that resists the same torque at the same maximum shear stress is approximately: steel tube with diameters 5 52 mm is twisted by torques at the ends. The diameter of a solid steel shaft that resists the same torque at the same maximum shear stress is approximately: (A) 56 mm (B) 62 mm (C) 75 mm (D) 82 m.m
(A) 56 mm
(B) 62 mm
(C) 75 mm
(D) 82 m.m
D
4
brass pipe is twisted by torques T 5 800 N ? m acting at the ends causing an angle of twist of 3.5 brass pipe is twisted by torques T 5 800 N ? m acting at the ends causing an angle of twist of 3.5 . The pipe has the following properties: 56 mm. The shear modulus of elasticity G Of the pipe is approximately: . The pipe has the following properties: brass pipe is twisted by torques T 5 800 N ? m acting at the ends causing an angle of twist of 3.5 . The pipe has the following properties: 56 mm. The shear modulus of elasticity G Of the pipe is approximately: 56 mm. The shear modulus of elasticity G
Of the pipe is approximately: brass pipe is twisted by torques T 5 800 N ? m acting at the ends causing an angle of twist of 3.5 . The pipe has the following properties: 56 mm. The shear modulus of elasticity G Of the pipe is approximately: brass pipe is twisted by torques T 5 800 N ? m acting at the ends causing an angle of twist of 3.5 . The pipe has the following properties: 56 mm. The shear modulus of elasticity G Of the pipe is approximately:
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5
angle of rotation between the ends of a nylon bar is angle of rotation between the ends of a nylon bar is . The bar diameter is 70 mm and the allowable shear strain is 0.014 rad. The minimum permissible length of the bar is approximately: (A) 0.15 m (B) 0.27 m (C) 0.40 m (D) 0.55 m . The bar diameter is 70 mm and the allowable shear strain is 0.014 rad. The minimum permissible length of the bar is approximately: angle of rotation between the ends of a nylon bar is . The bar diameter is 70 mm and the allowable shear strain is 0.014 rad. The minimum permissible length of the bar is approximately: (A) 0.15 m (B) 0.27 m (C) 0.40 m (D) 0.55 m
(A) 0.15 m
(B) 0.27 m
(C) 0.40 m
(D) 0.55 m
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6
brass bar twisted by torques T acting at the ends has the following properties: brass bar twisted by torques T acting at the ends has the following properties: and 41 GPa. The torsional stiffness of the bar is approximately: and brass bar twisted by torques T acting at the ends has the following properties: and 41 GPa. The torsional stiffness of the bar is approximately: 41 GPa. The torsional stiffness of the bar is approximately: brass bar twisted by torques T acting at the ends has the following properties: and 41 GPa. The torsional stiffness of the bar is approximately: brass bar twisted by torques T acting at the ends has the following properties: and 41 GPa. The torsional stiffness of the bar is approximately:
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7
aluminum bar of diameter aluminum bar of diameter 52 mm is twisted by torques at the ends. The allowable shear stress (A) 1450 N ? m (B) 1675 N ? m (C) 1710 N ? m (D) 1800 N . m 52 mm is twisted by torques aluminum bar of diameter 52 mm is twisted by torques at the ends. The allowable shear stress (A) 1450 N ? m (B) 1675 N ? m (C) 1710 N ? m (D) 1800 N . m at the ends. The allowable shear stress aluminum bar of diameter 52 mm is twisted by torques at the ends. The allowable shear stress (A) 1450 N ? m (B) 1675 N ? m (C) 1710 N ? m (D) 1800 N . m aluminum bar of diameter 52 mm is twisted by torques at the ends. The allowable shear stress (A) 1450 N ? m (B) 1675 N ? m (C) 1710 N ? m (D) 1800 N . m
(A) 1450 N ? m
(B) 1675 N ? m
(C) 1710 N ? m
(D) 1800 N . m
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8
brass rod of length L 5 0.75 m is twisted by torques T until the angle of rotation between the ends of the rod is 3.5 brass rod of length L 5 0.75 m is twisted by torques T until the angle of rotation between the ends of the rod is 3.5 . The allowable shear strain in the copper is 0.0005 rad. The maximum permissible diameter of The rod is approximately: S (A) 6.5 mm (B) 8.6 mm (C) 9.7 mm (D) 12.3 mm . The allowable shear strain in the copper is 0.0005 rad. The maximum permissible diameter of
The rod is approximately: brass rod of length L 5 0.75 m is twisted by torques T until the angle of rotation between the ends of the rod is 3.5 . The allowable shear strain in the copper is 0.0005 rad. The maximum permissible diameter of The rod is approximately: S (A) 6.5 mm (B) 8.6 mm (C) 9.7 mm (D) 12.3 mm S
(A) 6.5 mm
(B) 8.6 mm
(C) 9.7 mm
(D) 12.3 mm
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9
gear shaft transmits torques gear shaft transmits torques the allowable shear stress is 50 MPa, the required shaft diameter is approximately: (A) 38 mm (B) 44 mm (C) 46 mm (D) 48 mm the allowable shear stress is 50 MPa, the required shaft diameter is approximately: gear shaft transmits torques the allowable shear stress is 50 MPa, the required shaft diameter is approximately: (A) 38 mm (B) 44 mm (C) 46 mm (D) 48 mm
(A) 38 mm
(B) 44 mm
(C) 46 mm
(D) 48 mm
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10
A hollow aluminum shaft ( A hollow aluminum shaft ( 52 mm) has an angle of twist per unit length of 1.8° /m due to torques T. The resulting maximum tensile stress in the shaft is approximately: 52 mm) has an angle of twist per unit length of 1.8° A hollow aluminum shaft ( 52 mm) has an angle of twist per unit length of 1.8° /m due to torques T. The resulting maximum tensile stress in the shaft is approximately: /m due to torques T. The resulting maximum tensile stress in the shaft is approximately: A hollow aluminum shaft ( 52 mm) has an angle of twist per unit length of 1.8° /m due to torques T. The resulting maximum tensile stress in the shaft is approximately: A hollow aluminum shaft ( 52 mm) has an angle of twist per unit length of 1.8° /m due to torques T. The resulting maximum tensile stress in the shaft is approximately:
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11
Torques T 5 5.7 kN ∙ m are applied to a hollow aluminum shaft ( Torques T 5 5.7 kN ∙ m are applied to a hollow aluminum shaft ( allowable shear stress is 45 MPa and the allowable normal strain is 8.0 . The required outside diameter of the shaft is approximately: (A) 38 mm (B) 56 mm (C) 87 mm (D) 91 mm allowable shear stress is 45 MPa and the allowable normal strain is 8.0 Torques T 5 5.7 kN ∙ m are applied to a hollow aluminum shaft ( allowable shear stress is 45 MPa and the allowable normal strain is 8.0 . The required outside diameter of the shaft is approximately: (A) 38 mm (B) 56 mm (C) 87 mm (D) 91 mm . The required outside diameter Torques T 5 5.7 kN ∙ m are applied to a hollow aluminum shaft ( allowable shear stress is 45 MPa and the allowable normal strain is 8.0 . The required outside diameter of the shaft is approximately: (A) 38 mm (B) 56 mm (C) 87 mm (D) 91 mm of the shaft is approximately: Torques T 5 5.7 kN ∙ m are applied to a hollow aluminum shaft ( allowable shear stress is 45 MPa and the allowable normal strain is 8.0 . The required outside diameter of the shaft is approximately: (A) 38 mm (B) 56 mm (C) 87 mm (D) 91 mm
(A) 38 mm
(B) 56 mm
(C) 87 mm
(D) 91 mm
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12
Bending stresses, combined stress, composite sections (A) 0.9 (B) 1.2 (C) 1.4 (D) 2.1 Bending stresses, combined stress, composite sections (A) 0.9 (B) 1.2 (C) 1.4 (D) 2.1 Bending stresses, combined stress, composite sections (A) 0.9 (B) 1.2 (C) 1.4 (D) 2.1 Bending stresses, combined stress, composite sections
(A) 0.9
(B) 1.2
(C) 1.4
(D) 2.1
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13
stepped steel shaft ( stepped steel shaft ( 32 mm is twisted by torques T at each end. Segment lengths are 0.75 m. If the allowable shear stress is 28 MPa and Maximum allowable twist is 1.8°, the maximum permissible torque is approximately: 32 mm is twisted by torques T at each end. Segment lengths are stepped steel shaft ( 32 mm is twisted by torques T at each end. Segment lengths are 0.75 m. If the allowable shear stress is 28 MPa and Maximum allowable twist is 1.8°, the maximum permissible torque is approximately: 0.75 m. If the allowable shear stress is 28 MPa and
Maximum allowable twist is 1.8°, the maximum permissible torque is approximately: stepped steel shaft ( 32 mm is twisted by torques T at each end. Segment lengths are 0.75 m. If the allowable shear stress is 28 MPa and Maximum allowable twist is 1.8°, the maximum permissible torque is approximately: stepped steel shaft ( 32 mm is twisted by torques T at each end. Segment lengths are 0.75 m. If the allowable shear stress is 28 MPa and Maximum allowable twist is 1.8°, the maximum permissible torque is approximately:
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14
stepped steel shaft with diameters stepped steel shaft with diameters m and m acting in opposite directions. The maximum shear stress is approximately: m and stepped steel shaft with diameters m and m acting in opposite directions. The maximum shear stress is approximately: m acting in opposite directions. The maximum shear stress is approximately: stepped steel shaft with diameters m and m acting in opposite directions. The maximum shear stress is approximately: stepped steel shaft with diameters m and m acting in opposite directions. The maximum shear stress is approximately:
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15
A drive shaft running at 2500 rpm has outer diameter of 60 mm and inner diameter of 40 mm. The allowable shear stress in the shaft is 35 MPa. The maximum power that can be transmitted is approximately: A drive shaft running at 2500 rpm has outer diameter of 60 mm and inner diameter of 40 mm. The allowable shear stress in the shaft is 35 MPa. The maximum power that can be transmitted is approximately: (A) 220 kW (B) 240 kW (C) 288 kW (D) 312 kW
(A) 220 kW
(B) 240 kW
(C) 288 kW
(D) 312 kW
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