For the beam shown in the figure below, draw the influence line for RC, and determine the maximum absolute reaction (negative or positive) at C in kN due to a concentrated live load of 22.5 kN, a uniformly distributed live load of 49 kN/m, and a uniformly distributed dead load of 13 kN /m. Enter absolute value only. Thank you!!

For the beam shown in the figure below, draw the influence line for RC, and determine the maximum absolute reaction (negative or positive) at C in kN due to a concentrated live load of 22.5 kN, a uniformly distributed live load of 49 kN/m, and a uniformly distributed dead load of 13 kN /m. Enter absolute value only. Thank you!!

Materials Science And Engineering Properties

1st Edition

ISBN:9781111988609

Author:Charles Gilmore

Publisher:Charles Gilmore

Chapter8: Engineering Materials

Section: Chapter Questions

Problem 85CQ

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Concept explainers

Influence Lines

The graphs that show the variation of a function at a specific point on a beam or truss due to a unit load placed at any point along the structure are known as influence lines in engineering. Some common functions that are studied with influence lines are shear, moment, and deflection. In designing beams and trusses, it is important to use influence lines in structures where loads would move along their span such as bridges, crane rails, conveyor belts, floor girders, etc. The influence lines help to study where a load will create the maximum effect for any of the functions.

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9. For the beam shown in the figure below, draw the influence line for RC, and determine the maximum absolute reaction (negative or positive) at C in kN due to a concentrated live load of 22.5 kN, a uniformly distributed live load of 49 kN/m, and a uniformly distributed dead load of 13 kN /m. Enter absolute value only.

Thank you!!

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