AWT230 x 26 standard steel shape is used to support the loads shown on the beam in the figure. The dimensions from the top and bottom of the shape to the centroidal axis are shown on the sketch of the cross section. Assume LAB-3 m, Lac-1m. WAB- 19 kN/m.. Wac-6 kN/m, Pc-15 kN. Consider the entire 4-m length of the beam and determine (a) the maximum tension bending stress (a positive number) at any location along the beam, and (b) the maximum compression bending stress (a negative number) at any location along the beam. WAR LAB WT230-26 60.7 mm Wac 164.3 mm Lac C
AWT230 x 26 standard steel shape is used to support the loads shown on the beam in the figure. The dimensions from the top and bottom of the shape to the centroidal axis are shown on the sketch of the cross section. Assume LAB-3 m, Lac-1m. WAB- 19 kN/m.. Wac-6 kN/m, Pc-15 kN. Consider the entire 4-m length of the beam and determine (a) the maximum tension bending stress (a positive number) at any location along the beam, and (b) the maximum compression bending stress (a negative number) at any location along the beam. WAR LAB WT230-26 60.7 mm Wac 164.3 mm Lac C
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:AWT230 x 26 standard steel shape is used to support the loads shown on the beam in the figure. The dimensions from the top and
bottom of the shape to the centroidal axis are shown on the sketch of the cross section. Assume LAB 3 m, Lac-1m. WAB-19 kN/m,
WBC-6 kN/m, Pc-15 kN. Consider the entire 4-m length of the beam and determine
(a) the maximum tension bending stress (a positive number) at any location along the beam, and
(b) the maximum compression bending stress (a negative number) at any location along the beam.
WAR
LAB
60.7 mm
T
WT230 x 26
Wac
164.3 mm
Lac
C
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