A cross-section of a beam is shown in Figure Q2. If the shear force in this section is V = 125 KN, determine the value and the location of the maximum shear stress in the section. In Figure Q2, a = 58 mm and the origin of the coordinate system is at centroid of the cross section. AV
A cross-section of a beam is shown in Figure Q2. If the shear force in this section is V = 125 KN, determine the value and the location of the maximum shear stress in the section. In Figure Q2, a = 58 mm and the origin of the coordinate system is at centroid of the cross section. AV
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:A cross-section of a beam is shown in Figure Q2. If the shear force in this section is V = 125
KN, determine the value and the location of the maximum shear stress in the section.
In Figure Q2, a = 58 mm and the origin of the coordinate system is at centroid of the cross
section.
A
a
2a
0
4a
a
3a
a
Transcribed Image Text:The vertical coordinate (y-coordinate; the y-axis serves as the axis of symmetry of the
cross-section.) and horizontal coordinate (z-coordinate) of the location where the maximum
shear stress occurs in the section are
y=
Z=
mm;
mm;
The vertical distance from the location where the maximum shear stress occurs in the
section to the bottom side (AB) of the cross section can be calculated as
Distance =
mm
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