Answered: The rigid beam BC shown in the figure…

Engineering

Civil Engineering

The rigid beam BC shown in the figure is supported by rods (1) and (2) that have cross-

Solid Waste Engineering

3rd Edition

ISBN:9781305635203

Author:Worrell, William A.

Publisher:Worrell, William A.

Chapter4: Mechanical Processes

Section: Chapter Questions

Problem 4.22P: Why is it so difficult to process MSW?

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Concept explainers

Loads and Reactive Forces

Loads are the external influences that a beam experiences under its working conditions. For instance, a beam may be subjected to shear loads, twisting loads, bending moment, and axial loads during its working conditions. Engineers primarily deal with beams and trusses in the civil engineering domain. Due to the influence of loads, it is very crucial to determine the induced stresses and deformation values. These values give an insight into the critical area of the beam that needs to be worked upon to make it fail-safe.

Question

The rigid beam BC shown in the figure is supported by rods (1) and (2) that have cross-sectional areas of 190 mm2 and 290 mm2, respectively. A uniformly distributed load of w= 12 kN/m is applied on the rigid beam as shown in the figure. Assume L= 3 m, a= 1.7 m, length of rods= 2.1 m and E= 57 GPa. Determine the force in rod (1)? Determine the force in rod (2)? Determine the normal stress in rod (1)? Determine the strain in rod (1)? Determine the deformation in rod (1)? In mm Determine the deformation in rod (2)?in mm

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Step 1: Determine the force in rod 1&2, stress and strain in rod 1 and deformation in rod 1&2

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Step 2: Determine the force in rod 1&2, stress and strain in rod 1 and deformation in rod 1&2

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