2) An idealized free-body diagram of a door handle is shown below. To simplify, member X-Y is only experiencing torque while member X-Z is only experiencing flexure. What should be the minimum thickness of the handle of member X-Z if the maximum allowable flexure is 3MPa? What is the maximum torsional shearing stress experienced by member X-Y? What is the angle of twist? *G=83MPa. *When solving for torque, assume point Y as fixed support *When solving for flexure, assume point X as fixed support 200mm 100 mm 20 mm-dia. steel 1500N
2) An idealized free-body diagram of a door handle is shown below. To simplify, member X-Y is only experiencing torque while member X-Z is only experiencing flexure. What should be the minimum thickness of the handle of member X-Z if the maximum allowable flexure is 3MPa? What is the maximum torsional shearing stress experienced by member X-Y? What is the angle of twist? *G=83MPa. *When solving for torque, assume point Y as fixed support *When solving for flexure, assume point X as fixed support 200mm 100 mm 20 mm-dia. steel 1500N
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:2) An idealized free-body diagram of a door handle is shown below. To simplify, member X-Y is only
experiencing torque while member X-Z is only experiencing flexure. What should be the minimum
thickness of the handle of member X-Z if the maximum allowable flexure is 3MPa? What is the
maximum torsional shearing stress experienced by member X-Y? What is the angle of twist?
*G=83MPa.
*When solving for torque, assume point Y as fixed support
*When solving for flexure, assume point X as fixed support
200mm
100 mm
20 mm-dia. steel
11500N
N
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