Determine the maximum mass (kg) that can be lifted at E if the 11.670-HP motor A has a maximum rotation speed of 301.20 rpm where the diameter of the shaft AB and CE are 10.237 mm and 15.402 mm, respectively. The allowable shearing stress is 1.001 GPa with F.S. of 1.76 for both shafts. Neglect the deformation of the cable at E. Where: radius of the gear at B, rB = 113.10 mm radius of the gear at C, rc = 158.58 mm
Determine the maximum mass (kg) that can be lifted at E if the 11.670-HP motor A has a maximum rotation speed of 301.20 rpm where the diameter of the shaft AB and CE are 10.237 mm and 15.402 mm, respectively. The allowable shearing stress is 1.001 GPa with F.S. of 1.76 for both shafts. Neglect the deformation of the cable at E. Where: radius of the gear at B, rB = 113.10 mm radius of the gear at C, rc = 158.58 mm
International Edition---engineering Mechanics: Statics, 4th Edition
4th Edition
ISBN:9781305501607
Author:Andrew Pytel And Jaan Kiusalaas
Publisher:Andrew Pytel And Jaan Kiusalaas
Chapter9: Moments And Products Of Inertia Of Areas
Section: Chapter Questions
Problem 9.46P
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Determine the maximum mass (kg) that can be lifted at E if the 11.670-HP motor A has a maximum rotation speed of 301.20 rpm where the diameter of the shaft AB and CE are 10.237 mm and 15.402 mm, respectively. The allowable shearing stress is 1.001 GPa with F.S. of 1.76 for both shafts. Neglect the deformation of the cable at E.
Where:
radius of the gear at B, rB = 113.10 mm
radius of the gear at C, rc = 158.58 mm
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