Consider a wood beam (see figure) carrying a uniform load of 18.5 kN/m (which includes the weight of the beam). The length is 2.05 m and the cross section is rectangular with width 150 mm and height 300 mm. 18.5 kN/m 300 mm 150 mm 2.05 m (a) 18.5 kN/m 2.05 m (b) (a) If the beam is simply supported as in figure part (a), calculate the maximum shear stress Tmax and the maximum bending stress max (Enter the magnitudes in MPa.) Tmax= MPa MPa = max (b) If the beam has a sliding support at right as in the figure part (b), calculate the maximum shear stress Tmax and the maximum bending stress max (Enter the magnitudes in MPa.) MPa max = max = MPa

Consider a wood beam (see figure) carrying a uniform load of 18.5 kN/m (which includes the weight of the beam). The length is 2.05 m and the cross section is rectangular with width 150 mm and height 300 mm. 18.5 kN/m 300 mm 150 mm 2.05 m (a) 18.5 kN/m 2.05 m (b) (a) If the beam is simply supported as in figure part (a), calculate the maximum shear stress Tmax and the maximum bending stress max (Enter the magnitudes in MPa.) Tmax= MPa MPa = max (b) If the beam has a sliding support at right as in the figure part (b), calculate the maximum shear stress Tmax and the maximum bending stress max (Enter the magnitudes in MPa.) MPa max = max = MPa

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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