The shaft is hollow (outer diameter d, = 295 mm and inner diameter d, = 250 mm) and delivers 1,700 kW at 4.0 Hz. If the compressive force P = 600 kN, what are the maximum tensile, compressive, and shear stresses in the shaft? (Enter the magnitudes in MPa. Assume that the structure behaves linearly elastically and that the stresses caused by two or more loads may be superimposed to obtain the resultant stresses acting at a point. Consider both in-plane and out-of-plane shear stresses unless otherwise specified.) maximum tensile stress 676 X MPa maximum compressive stress 31461.087 X MPa maximum shear stress 277.126 X MPa Construct a clear sketch of Mohr's circle for this problem, and construct a sketch of the stresses on properly oriented elements for your above solutions, clearly indicating the orientation wrt the base x-y coordinate system (as demonstrated in the lectures). Submit your sketches as Shown Work on Canvas. Your grade on Canvas will be based predominantly on these sketches.

Structural Analysis
6th Edition
ISBN:9781337630931
Author:KASSIMALI, Aslam.
Publisher:KASSIMALI, Aslam.
Chapter2: Loads On Structures
Section: Chapter Questions
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A segment of a generator shaft is subjected to a torque T and an axial force P, as shown in the figure.
The shaft is hollow (outer diameter d, = 295 mm and inner diameter d, = 250 mm) and delivers 1,700 kW at 4.0 Hz.
If the compressive force P = 600 kN, what are the maximum tensile, compressive, and shear stresses in the shaft? (Enter the magnitudes in MPa. Assume that the structure behaves linearly elastically and that the stresses
caused by two or more loads may be superimposed to obtain
e resultant stresses acting at a point. Consider both in-plane and out-of-plane shear stresses unless otherwise specified.)
maximum tensile stress
676
X MPa
maximum compressive stress
31461.087
X MPa
maximum shear stress
277.126
X MPa
Construct a clear sketch of Mohr's circle for this problem, and construct a sketch of the stresses on properly oriented elements for your above solutions, clearly indicating the orientation wrt the base x-y coordinate system
(as demonstrated in the lectures). Submit your sketches as Shown Work on Canvas. Your grade on Canvas will be based predominantly on these sketches.
Transcribed Image Text:A segment of a generator shaft is subjected to a torque T and an axial force P, as shown in the figure. The shaft is hollow (outer diameter d, = 295 mm and inner diameter d, = 250 mm) and delivers 1,700 kW at 4.0 Hz. If the compressive force P = 600 kN, what are the maximum tensile, compressive, and shear stresses in the shaft? (Enter the magnitudes in MPa. Assume that the structure behaves linearly elastically and that the stresses caused by two or more loads may be superimposed to obtain e resultant stresses acting at a point. Consider both in-plane and out-of-plane shear stresses unless otherwise specified.) maximum tensile stress 676 X MPa maximum compressive stress 31461.087 X MPa maximum shear stress 277.126 X MPa Construct a clear sketch of Mohr's circle for this problem, and construct a sketch of the stresses on properly oriented elements for your above solutions, clearly indicating the orientation wrt the base x-y coordinate system (as demonstrated in the lectures). Submit your sketches as Shown Work on Canvas. Your grade on Canvas will be based predominantly on these sketches.
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