Q1: The shaft, as shown in Fig. is driven by pulley B from an electric motor. Another belt drive from pulley A is running a compressor. The belt tensions for pulley A are 1500 N and 600 N. The ratio of belt tensions for pulley B is 2.5. The diameter of pulley A is 150 mm and the diameter of pulley B is 480 mm. The allowable shear stress for the shaft material is 85 MPa. Taking torsion and bending factors as 1.25 and 1.5 respectively, find the shaft diameter. C |--100 A -150- B D 100- TB2 All dimensions in mm. B A TAZ
Q1: The shaft, as shown in Fig. is driven by pulley B from an electric motor. Another belt drive from pulley A is running a compressor. The belt tensions for pulley A are 1500 N and 600 N. The ratio of belt tensions for pulley B is 2.5. The diameter of pulley A is 150 mm and the diameter of pulley B is 480 mm. The allowable shear stress for the shaft material is 85 MPa. Taking torsion and bending factors as 1.25 and 1.5 respectively, find the shaft diameter. C |--100 A -150- B D 100- TB2 All dimensions in mm. B A TAZ
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Transcribed Image Text:(BB)
Q1: The shaft, as shown in Fig. is driven by pulley B from an electric motor. Another
belt drive from pulley A is running a compressor. The belt tensions for pulley A are 1500
N and 600 N. The ratio of belt tensions for pulley B is 2.5. The diameter of pulley A is 150
mm and the diameter of pulley B is 480 mm. The allowable shear stress for the shaft
material is 85 MPa. Taking torsion and bending factors as 1.25 and 1.5 respectively, find
the shaft diameter.
C
#
-100-
A
B
-150-100
D
TB2
All dimensions in mm.
B
A
TAZ
TAI
TB1
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