Q2. A compound shaft supports five pulleys that transmit different amount of torques as shown in Figure 2. The shaft has modulus of rigidity of 80 GPa. Segments (1) and (4) are solid cross section with diameter of 30 mm. Segments (2) and (3) are solid cross section with diameter of 50 mm. Individual data of the shaft will be given to each student. Based on the given data, students should perform the following tasks: • Calculate torques on each segment of the shaft. • Draw the free body diagram of the torques applied on the shaft. • Evaluate the maximum shear stress on each segment of the shaft. Evaluate the angle of twist of each segment of the shaft. (2) TC P Figure 2: A Shaft loaded with different torques TE

Q2. A compound shaft supports five pulleys that transmit different amount of torques as shown in Figure 2. The shaft has modulus of rigidity of 80 GPa. Segments (1) and (4) are solid cross section with diameter of 30 mm. Segments (2) and (3) are solid cross section with diameter of 50 mm. Individual data of the shaft will be given to each student. Based on the given data, students should perform the following tasks: • Calculate torques on each segment of the shaft. • Draw the free body diagram of the torques applied on the shaft. • Evaluate the maximum shear stress on each segment of the shaft. Evaluate the angle of twist of each segment of the shaft. (2) TC P Figure 2: A Shaft loaded with different torques TE

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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