Q1(а)A tall standpipe as shown in Figure Q1(a) with an open top has an inner diameter7 d=2.1 m and wall thickness t= 20 mm,Given the weight density of water y = 9.81 kN/m³ and water pressure is p = y h,calculate the height h of water that will produce a circumferential stress of 12 MPain the wall of the standpipe.(i)(ii)Calculate the axial stress in the wall of the tank due to the water pressure. Figure Q1 (a)

Given:d=2.1 mt=20 mmγ=9.81 kN/m3σc=12 MPa

A tall standpipe as shown in Figure Q1(a) with an open top has an inner diamet d = 2.1 m and wall thickness t = 20 mm, Given the weight density of water y = 9.81 kN/m³ and water pressure is p = y (i) calculate the height h of water that will produce a circumferential stress of 12 MI in the wall of the standpipe. Calculate the axial stress in the wall of the tank due to the water pressure. ... (ii)

A tall standpipe as shown in Figure Q1(a) with an open top has an inner diamet d = 2.1 m and wall thickness t = 20 mm, Given the weight density of water y = 9.81 kN/m³ and water pressure is p = y (i) calculate the height h of water that will produce a circumferential stress of 12 MI in the wall of the standpipe. Calculate the axial stress in the wall of the tank due to the water pressure. ... (ii)

Mechanics of Materials (MindTap Course List)

9th Edition

ISBN:9781337093347

Author:Barry J. Goodno, James M. Gere

Publisher:Barry J. Goodno, James M. Gere

Chapter8: Applications Of Plane Stress (pressure Vessels, Beams, And Combined Loadings)

Section: Chapter Questions

Problem 8.2.13P: : A hollow, pressurized sphere having a radius r = 4.8 in, and wall thickness t = 0.4 in. is lowered...

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