The beam shown in the figure is supported at roller A and pinned at B and has a uniformly distributed loading w = 42 kN/m over 1.5 m from the left-hand end and moment loading M = 55 kNm at 1.5 m from end B. Determine the bending moment at a section from the left-hand end of the beam X = 1.9 m. Input your answer as a value only in kNm to one decimal place and without +/- sign. w kN/m X -1.5 m- -1.5 m M kNm -1.5 m-
The beam shown in the figure is supported at roller A and pinned at B and has a uniformly distributed loading w = 42 kN/m over 1.5 m from the left-hand end and moment loading M = 55 kNm at 1.5 m from end B. Determine the bending moment at a section from the left-hand end of the beam X = 1.9 m. Input your answer as a value only in kNm to one decimal place and without +/- sign. w kN/m X -1.5 m- -1.5 m M kNm -1.5 m-
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:The beam shown in the figure is
supported at roller A and pinned at B and
has a uniformly distributed loading w = 42
kN/m over 1.5 m from the left-hand end
and moment loading M = 55 kNm at 1.5
m from end B.
Determine the bending moment at a
section from the left-hand end of the
beam X 1.9 m. Input your answer as a
value only in kNm to one decimal place
and without +/- sign.
=
w kN/m
X
-1.5 m-
-1.5 m-
M kNm
-1.5 m-
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