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Find the slack-side tension on pulley A in N.

Find the slack-side tension on pulley A in N.

Elements Of Electromagnetics
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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SOLVE CAREFULLY!! Please Write Clearly and Box the final Answer for Part A-D
A shaft in equilibrium is shown below with dimensions as given in the table below: da dB dshaft a 60 mm 80 mm 40 mm 60 mm 120 mm 12 mm On pulley B, T1 = 240 N and T2 = 50 N. On puley A, the slack-side tension is 1/5 of the tight-side tension. Find the slack-side tension on pulley A in N. Do not include units in your answer. shaft QUESTION 14 Continuing with the previous question, determine the magnitude of the maximum bending stress at any section and any location, ox, lin units of MPa. Do not include the unit in your answer. Do not include the sign (+/-). QUESTION 15 Continuing with the previous question, determine the magnitude of the largest shear stress anywhere between section A and B in units of MPa. Do not include the units in your answer. Do not include the sign (+/-). QUESTION 16 Continuing with the previous question, determine the safety factor by the Distortion Energy theory if the yield strength is 391 MPa.
Transcribed Image Text:A shaft in equilibrium is shown below with dimensions as given in the table below: da dB dshaft a 60 mm 80 mm 40 mm 60 mm 120 mm 12 mm On pulley B, T1 = 240 N and T2 = 50 N. On puley A, the slack-side tension is 1/5 of the tight-side tension. Find the slack-side tension on pulley A in N. Do not include units in your answer. shaft QUESTION 14 Continuing with the previous question, determine the magnitude of the maximum bending stress at any section and any location, ox, lin units of MPa. Do not include the unit in your answer. Do not include the sign (+/-). QUESTION 15 Continuing with the previous question, determine the magnitude of the largest shear stress anywhere between section A and B in units of MPa. Do not include the units in your answer. Do not include the sign (+/-). QUESTION 16 Continuing with the previous question, determine the safety factor by the Distortion Energy theory if the yield strength is 391 MPa.
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