The composite shaft shown consists of a solid brass segment (1) and a solid aluminum segment (2) that are connected at flange B and securely attached to rigid walls at A and C. Brass segment (1) has a diameter of 15 mm, a length of L1 = 235 mm, and a shear modulus of 40 GPa. Aluminum segment (2) has a diameter of 24 mm, a length of L2 = 165 mm, and a shear modulus of 39 GPa. If a concentrated torque of 270 N-m is applied to flange B, determine the torque produced in segment (1). ,ak 270 N-m 235 mm B 165 mm C O 29.4 N-m O 31.2 N-m O 26.7 N-m O 19.0 N-m O 36.1 N-m
The composite shaft shown consists of a solid brass segment (1) and a solid aluminum segment (2) that are connected at flange B and securely attached to rigid walls at A and C. Brass segment (1) has a diameter of 15 mm, a length of L1 = 235 mm, and a shear modulus of 40 GPa. Aluminum segment (2) has a diameter of 24 mm, a length of L2 = 165 mm, and a shear modulus of 39 GPa. If a concentrated torque of 270 N-m is applied to flange B, determine the torque produced in segment (1). ,ak 270 N-m 235 mm B 165 mm C O 29.4 N-m O 31.2 N-m O 26.7 N-m O 19.0 N-m O 36.1 N-m
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:The composite shaft shown consists of a solid brass segment (1) and a solid aluminum segment (2) that are connected at flange B and
securely attached to rigid walls at A and C. Brass segment (1) has a diameter of 15 mm, a length of L1 = 235 mm, and a shear modulus
of 40 GPa. Aluminum segment (2) has a diameter of 24 mm, a length of L2 = 165 mm, and a shear modulus of 39 GPa. If a
concentrated torque of 270 N-m is applied to flange B, determine the torque produced in segment (1).
270 N-m
A
(1)
235 mm
B
165 mm
29.4 N-m
31.2 N-m
O 26.7 N-m
O 19.0 N-m
O 36.1 N-m
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