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Structural Analysis

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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A simply supported beam with spans of LAB = 11 ft and LBC = 33 ft supports loads of w = 3.5 kips/ft and P = 27 kips. The cross-sectional dimensions of the wide-flange shape are bf = 7.5 in., tf = 0.53 in., d = 29.3 in., and tw = 0.41 in. Determine the magnitude of: (a) the maximum horizontal shear stress in the beam. (b) the maximum bending stress in the beam.

A simply supported beam with spans of LAB = 11 ft and LBC = 33 ft supports loads of w = 3.5 kips/ft and P = 27
kips. The cross-sectional dimensions of the wide-flange shape are bf = 7.5 in., tf = 0.53 in., d = 29.3 in., and tw =
0.41 in. Determine the magnitude of:
(a) the maximum horizontal shear stress in the beam.
(b) the maximum bending stress in the beam.
W
B
LBC
1
ksi
ksi
LAB
Answer:
(a) Tmax=
(b) Omax =
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A cantilever beam with length of 3.2 m is reinforced with As=5720 mm^2 tension reinforcement and compression reinforcement A's =1905 mm^2 placed at 60 mm from extreme compression fiber. The effective depth is 550 mm and width of 400 mm. Use f'c=35 MPa and fy=415 MPa. 1. Calculate the magnitude of the neutral axis. 2. Determine the compressive force of the section. 3. Determine the safe concentrated live load that can be placed at the free end if the beam carries a total ultimate uniform load of 35 kN/m.
Find the lightest W-shaped section that can safely support the load. The beam is made of steel having an allowable normal stress of σallow = 150 MPa and an allowable shear stress of τallow=75 MPa.

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