Please correct solution A simply supported beam under a uniformly distributed load is made of W40X 149 with a span of 32 feet. The yield stress Fy = 50 ksi, and the plastic section modulusZx is 598 in³. The beam is compact and laterally supported. Assuming the live load is 3times the dead load, what is the maximum total service load, in kips/ft, that can besupported when ASD is used? Don't forget the weight of the beam.%3D

For W40x149 wself = 65.8kg/m = 65.8x (0.3048/0.4536) = 44.215 lb/ft = 0.0442 kip/ft

A simply supported beam under a uniformly distributed load is made of W40 X 149 with a span of 32 feet. The yield stress Fy = 50 ksi, and the plastic section modulus Zx is 598 in?. The beam is compact and laterally supported. Assuming the live load is 3 times the dead load, what is the maximum total service load, in kips/ft, that can be supported when ASD is used? Don't forget the weight of the beam.

A simply supported beam under a uniformly distributed load is made of W40 X 149 with a span of 32 feet. The yield stress Fy = 50 ksi, and the plastic section modulus Zx is 598 in?. The beam is compact and laterally supported. Assuming the live load is 3 times the dead load, what is the maximum total service load, in kips/ft, that can be supported when ASD is used? Don't forget the weight of the beam.

Steel Design (Activate Learning with these NEW titles from Engineering!)

6th Edition

ISBN:9781337094740

Author:Segui, William T.

Publisher:Segui, William T.

Chapter9: Composite Construction

Section: Chapter Questions

Problem 9.1.3P

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Fluid Materials

In general terms, anything that flows can be termed as a fluid. In other words, a fluid is any substance that cannot resist shear forces and deforms continuously under the application of external shear forces. Fluid materials differ completely from solid materials such as metals and alloys. For instance, if we consider two infinitesimally small cross-sectional areas of fluid materials and solid materials, and apply shear forces to these elements, both the elements will undergo deformation. Upon releasing the shear force, the element of the solid materials will regain its original orientation, but the element of the fluid materials will keep on deforming continuously under the action of the shear force.

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Please correct solution

A simply supported beam under a uniformly distributed load is made of W40
X 149 with a span of 32 feet. The yield stress Fy = 50 ksi, and the plastic section modulus
Zx is 598 in³. The beam is compact and laterally supported. Assuming the live load is 3
times the dead load, what is the maximum total service load, in kips/ft, that can be
supported when ASD is used? Don't forget the weight of the beam.
%3D

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