5-63 The figure 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. f-in D 300 lbf 50 Ibf 59 Ibf | 392 Ibf !D Problem 5–63 6 in '8-in D. in 8 in

Elements Of Electromagnetics
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Author:Sadiku, Matthew N. O.
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5-63
The figure 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.
f-in R
300 Ibf
50 lbf
59 Ibf
392 lbf D
Problem 5-63
C 6 in
8-in D.
8 in
B
8 in
Transcribed Image Text:5-63 The figure 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. f-in R 300 Ibf 50 lbf 59 Ibf 392 lbf D Problem 5-63 C 6 in 8-in D. 8 in B 8 in
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