The composite beam shown in the figure is simply supported and carries a total uniform load of 50 kN/m on a span of 4.0 m. The bearn is built of a wood member having cross sectional dimensions 150 mm...

I need the answer as soon as possibleThe composite beam shown in the figure is simply<br>supported and carries a total uniform load of 50 kN/m<br>on a span of 4.0 m. The bearn is built of a wood member<br>having cross sectional dimensions 150 mm x 250 mm<br>and two steel plates of cross-sectional dimensions 150<br>mm x 50 mm. Determine the maximum stresses,<br>in the steel and wood, respectively. If the moduli of<br>elasticity are E {s} = 209GPA and E {w} = 11GPA<br>(Disregard the weight of the beam)<br>%3D<br>%3D<br>Steel 50 mm<br>Wood<br>50 kN/m<br>Steel 50 mm<br>4.0 m -<br>150 mm<br>250 mm<br>

Extracted text: The composite beam shown in the figure is simply supported and carries a total uniform load of 50 kN/m on a span of 4.0 m. The bearn is built of a wood member having cross sectional dimensions 150 mm x 250 mm and two steel plates of cross-sectional dimensions 150 mm x 50 mm. Determine the maximum stresses, in the steel and wood, respectively. If the moduli of elasticity are E {s} = 209GPA and E {w} = 11GPA (Disregard the weight of the beam) %3D %3D Steel 50 mm Wood 50 kN/m Steel 50 mm 4.0 m - 150 mm 250 mm

Jun 11, 2022
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