In the figure below, the beam is cantilevered from the wall. The connection of the beam to the wall can be considered a general interaction. The beam has a uniform density, so it will be subject to a weight force applied mid-way between points A and B. length from point A to point B =10.0 meters; weight applied at point B = 1.00 kN; beam weight = 0.500 kN Beam embeded in cwall ~ cautilever B What is the magnitude and direction (relative to the x-y coordinate system shown in the upper left portion of the figure) of the moment applied by the wall support?
In the figure below, the beam is cantilevered from the wall. The connection of the beam to the wall can be considered a general interaction. The beam has a uniform density, so it will be subject to a weight force applied mid-way between points A and B. length from point A to point B =10.0 meters; weight applied at point B = 1.00 kN; beam weight = 0.500 kN Beam embeded in cwall ~ cautilever B What is the magnitude and direction (relative to the x-y coordinate system shown in the upper left portion of the figure) of the moment applied by the wall support?
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Transcribed Image Text:In the figure below, the beam is cantilevered from the wall. The connection of the beam to the wall
can be considered a general interaction. The beam has a uniform density, so it will be subject to a
weight force applied mid-way between points A and B.
length from point A to point B =10.0 meters; weight applied at point B = 1.00 kN; beam weight =
0.500 kN
Beam embeded
in cwall a cautilever
What is the magnitude and direction (relative to the x-y coordinate system shown in the upper left
portion of the figure) of the moment applied by the wall support?
O 12.5 kNm into the screen
O 50.8 kNm out of the screen
O 38.5 kNm into the screen
O 97.5 kNm out of the screen
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