B2 A tube of 50 mm outside diameter and 2 mm thickness is attached at the ends by means of rigid flanges to a solid shaft of 25 mm diameter as shown in Figure B2. A torque of T is applied at the ends of the assembly as shown in the diagram. 25mm 2mm O Ho 500mm (All dimensions in mm. Diagram not drawn to scale.) Figure B2 a) If both the tube and the shaft are made of the same linearly elastic material, what is the part (percentage) of the applied torque T carried by the tube? (hint: consider equal angle of rotation of the tube and the shaft) b) If the assembly is made of aluminium, what is the maximum torque T that can be applied to the assembly such that the shearing stress in the tube would not exceed 100 MPa? A 25mm 50mm

B2 A tube of 50 mm outside diameter and 2 mm thickness is attached at the ends by means of rigid flanges to a solid shaft of 25 mm diameter as shown in Figure B2. A torque of T is applied at the ends of the assembly as shown in the diagram. 25mm 2mm O Ho 500mm (All dimensions in mm. Diagram not drawn to scale.) Figure B2 a) If both the tube and the shaft are made of the same linearly elastic material, what is the part (percentage) of the applied torque T carried by the tube? (hint: consider equal angle of rotation of the tube and the shaft) b) If the assembly is made of aluminium, what is the maximum torque T that can be applied to the assembly such that the shearing stress in the tube would not exceed 100 MPa? A 25mm 50mm

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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Question

Can part b) be answered please?

B2
A tube of 50 mm outside diameter and 2 mm thickness is attached at the ends
by means of rigid flanges to a solid shaft of 25 mm diameter as shown in
Figure B2. A torque of T is applied at the ends of the assembly as shown in
the diagram.
25mm
2mm
to-
25mm 50mm
500mm
(All dimensions in mm. Diagram not drawn to scale.)
Figure B2
a) If both the tube and the shaft are made of the same linearly elastic
material, what is the part (percentage) of the applied torque T carried by
the tube? (hint: consider equal angle of rotation of the tube and the shaft)
b) If the assembly is made of aluminium, what is the maximum torque T that
can be applied to the assembly such that the shearing stress in the tube
would not exceed 100 MPa?

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