An 8-meter long horizontal beam is supported to the left end by a fixed support and supported to the right end by a roller support. A uniformly varying load from 0 at the left end to 50 kN/m at the right end is applied onto the beam. Assume that the vertical reaction at the roller support is 165% of the vertical reaction at the fixed support. Calculate for the value of the maximum bending moment in the beam (in kN-m). Input to the nearest two decimal places. Add a negative sign before the numerical value of your answer if needed.
An 8-meter long horizontal beam is supported to the left end by a fixed support and supported to the right end by a roller support. A uniformly varying load from 0 at the left end to 50 kN/m at the right end is applied onto the beam. Assume that the vertical reaction at the roller support is 165% of the vertical reaction at the fixed support. Calculate for the value of the maximum bending moment in the beam (in kN-m). Input to the nearest two decimal places. Add a negative sign before the numerical value of your answer if needed.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Transcribed Image Text:An 8-meter long horizontal beam is supported to the left end by a
fixed support and supported to the right end by a roller support. A
uniformly varying load from 0 at the left end to 50 kN/m at the right
end is applied onto the beam. Assume that the vertical reaction at
the roller support is 165% of the vertical reaction at the fixed
support. Calculate for the value of the maximum bending moment in
the beam (in kN-m). Input to the nearest two decimal places. Add a
negative sign before the numerical value of your answer if nteded.
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