The solid shaft is fixed to the support at C and subjected to the torsional loadings and axial load P as shown. a) Determine the torsional shear stress at a) Point A (50 mm from the center) and b) Point B (on the surface) Determine the absolute maximum torsional shear stress in the shaft. Sketch the state of stress at point A and draw its corresponding Mohr's Circle of Stress. Compute the principal stresses and maximum in-plane stress. b) c) 50 mm T=10.52kN-m 75 mm 4 kN-m O 75 mm P = 20 KN
The solid shaft is fixed to the support at C and subjected to the torsional loadings and axial load P as shown. a) Determine the torsional shear stress at a) Point A (50 mm from the center) and b) Point B (on the surface) Determine the absolute maximum torsional shear stress in the shaft. Sketch the state of stress at point A and draw its corresponding Mohr's Circle of Stress. Compute the principal stresses and maximum in-plane stress. b) c) 50 mm T=10.52kN-m 75 mm 4 kN-m O 75 mm P = 20 KN
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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![The solid shaft is fixed to the support
at C and subjected to the torsional loadings and axial
load P as shown.
a) Determine the torsional shear stress at
a) Point A (50 mm from the center) and
Point B (on the surface)
b)
Determine the absolute maximum torsional shear
stress in the shaft.
Sketch the state of stress at point A and draw its
corresponding Mohr's Circle of Stress. Compute the
principal stresses and maximum in-plane stress.
b)
c)
4
50 mm
T=10.52kN-m
75 mm
4 kN-m
75 mm
P = 20 KN](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fe28fa70e-db35-402e-a87b-29e7f80165a6%2F8b1dfbc2-f025-4387-9181-8543d2740b97%2Fni1t20g_processed.jpeg&w=3840&q=75)
Transcribed Image Text:The solid shaft is fixed to the support
at C and subjected to the torsional loadings and axial
load P as shown.
a) Determine the torsional shear stress at
a) Point A (50 mm from the center) and
Point B (on the surface)
b)
Determine the absolute maximum torsional shear
stress in the shaft.
Sketch the state of stress at point A and draw its
corresponding Mohr's Circle of Stress. Compute the
principal stresses and maximum in-plane stress.
b)
c)
4
50 mm
T=10.52kN-m
75 mm
4 kN-m
75 mm
P = 20 KN
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