1) Consider the sprocket problem from HW2 (question 3). a. Find the location of the highest bending stress and draw the 3D Mohr's circle at this location (including contributions from both torsional and transverse shear stress this time). What would the desired material yield strength be if the component is to be designed with a safety factor of 2.5? Apply the maximum shear stress failure criteria. b. Find the location with the highest shear stress (including contributions from both torsional and transverse shear stress). Draw the 3D Mohr's circle at this location (be sure to include any bending stress at this location when sketching the Mohr's circle). What would the desired material yield strength be if the component is to be designed with a safety factor of 2.5? Apply the maximum shear stress failure criteria. 125 mm dia. - 50-mm dia. 75 mm 25 mm dia. 5000 N 150 mm 75 mm

1) Consider the sprocket problem from HW2 (question 3). a. Find the location of the highest bending stress and draw the 3D Mohr's circle at this location (including contributions from both torsional and transverse shear stress this time). What would the desired material yield strength be if the component is to be designed with a safety factor of 2.5? Apply the maximum shear stress failure criteria. b. Find the location with the highest shear stress (including contributions from both torsional and transverse shear stress). Draw the 3D Mohr's circle at this location (be sure to include any bending stress at this location when sketching the Mohr's circle). What would the desired material yield strength be if the component is to be designed with a safety factor of 2.5? Apply the maximum shear stress failure criteria. 125 mm dia. - 50-mm dia. 75 mm 25 mm dia. 5000 N 150 mm 75 mm

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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Step 2: Calculation of Force F

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Step 3: Construction of the V-M-N-T diagrams

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Step 4: calculation of critical location and torsional shear stress

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