The element in the image has a horizontal force of 20 N and a vertical force of 25 N. The element was made of a 25.4 mm diameter steel bar. Determine: to. The four states of stress from the farthest place of the forces and obtain the critical point. b. For the critical point, construct the Mohr circle. C. Obtain the maximum principal and normal shear stresses for the critical point. d. The angles at which the maximum normal and shear stresses occur. and. Draw the rotated tension state for the angles obtained and with the corresponding tensions.
The element in the image has a horizontal force of 20 N and a vertical force of 25 N. The element was made of a 25.4 mm diameter steel bar. Determine: to. The four states of stress from the farthest place of the forces and obtain the critical point. b. For the critical point, construct the Mohr circle. C. Obtain the maximum principal and normal shear stresses for the critical point. d. The angles at which the maximum normal and shear stresses occur. and. Draw the rotated tension state for the angles obtained and with the corresponding tensions.
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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The element in the image has a horizontal force of 20 N and a vertical force of 25 N. The element was made of a 25.4 mm diameter steel bar. Determine:
to. The four states of stress from the farthest place of the forces and obtain the critical point.
b. For the critical point, construct the Mohr circle.
C. Obtain the maximum principal and normal shear stresses for the critical point.
d. The angles at which the maximum normal and shear stresses occur.
and. Draw the rotated tension state for the angles obtained and with the corresponding tensions.
Transcribed Image Text:Z
y
F=20N
152.4mm
F=25N
C
304.8mm
25,4 mm
X
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