Q1) Figure 1 shows a shaft mounted in bearings at A and D and having pulleys at B and C. The forces shown acting on the pulley surfaces represent the belt tensions. The shaft is to be made of AISI 1035 CD steel. Using a conservative failure theory with a design factor of 2, determine the minimum shaft diameter to avoid yielding. Figure (1) 300 lbf ban 1) 50 tbf in D. 39 lbt 392 The
Q1) Figure 1 shows a shaft mounted in bearings at A and D and having pulleys at B and C. The forces shown acting on the pulley surfaces represent the belt tensions. The shaft is to be made of AISI 1035 CD steel. Using a conservative failure theory with a design factor of 2, determine the minimum shaft diameter to avoid yielding. Figure (1) 300 lbf ban 1) 50 tbf in D. 39 lbt 392 The
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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Assume any value if it is not available
![Q1) Figure 1 shows a shaft mounted in bearings at A and D and having pulleys at B
and C. The forces shown acting on the pulley surfaces represent the belt tensions.
The shaft is to be made of AISI 1035 CD steel. Using a conservative failure theory
with a design factor of 2, determine the minimum shaft diameter to avoid yielding.
Figure (1)
300 lbf
ban 1)
50 lbf
59 lbt
392 Tbf
C6 in](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F1cb4b244-6b3e-417a-8155-c2acce0d24ff%2F8ce6d96b-e818-4baf-a0cc-b7a89ae06f0c%2Fxv3jyp7_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Q1) Figure 1 shows a shaft mounted in bearings at A and D and having pulleys at B
and C. The forces shown acting on the pulley surfaces represent the belt tensions.
The shaft is to be made of AISI 1035 CD steel. Using a conservative failure theory
with a design factor of 2, determine the minimum shaft diameter to avoid yielding.
Figure (1)
300 lbf
ban 1)
50 lbf
59 lbt
392 Tbf
C6 in
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Step 1: Determine the given data
VIEWStep 2: Calculate the torque
VIEWStep 3: Calculate the reaction
VIEWStep 4: Calculate the moment
VIEWStep 5: Calculate the reaction at D
VIEWStep 6: Calculate the moment about C
VIEWStep 7: Write the shear stress equation
VIEWStep 8: Write the normal stress and max shear stress
VIEWStep 9: Calculate the diameter
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