We have two chambers filled with water. What are the 1) total amounts and 2) directions of the forces that are required to support the convex- and concave- shaped segments (red) of the walls in each chamber? The thickness of chambers (in z-direction) is 1 m and each. Each curved surface is a quarter of a circle. Provide the answer in SI units. Angles should be with respect to the y-axis. If we keep adding more water into the chamber, which wall will break first?

We have two chambers filled with water. What are the 1) total amounts and 2) directions of the forces that are required to support the convex- and concave- shaped segments (red) of the walls in each chamber? The thickness of chambers (in z-direction) is 1 m and each. Each curved surface is a quarter of a circle. Provide the answer in SI units. Angles should be with respect to the y-axis. If we keep adding more water into the chamber, which wall will break first?

Name: 5 We have two chambers filled with water. What are the 1) total amount
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Description: 5 We have two chambers filled with water. What are the 1) total amounts and 2)directions of the forces that are required to support the convex- and concave-shaped segments (red) of the walls in each chamber? The thickness of chambers(in z-direction)

International Edition---engineering Mechanics: Statics, 4th Edition

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ISBN:9781305501607

Author:Andrew Pytel And Jaan Kiusalaas

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Chapter8: Centroids And Distributed Loads

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Problem 8.121P: One side of the container has a 03-m square door that is hinged at its top edge. If the container is...

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Question

We have two chambers filled with water. What are the 1) total amounts and 2)
directions of the forces that are required to support the convex- and concave-
shaped segments (red) of the walls in each chamber? The thickness of chambers
(in z-direction) is 1 m and each. Each curved surface is a quarter of a circle.
Provide the answer in SI units. Angles should be with respect to the y-axis. If we
keep adding more water into the chamber, which wall will break first?
L₂
y
x
L = 20 m
Air (Po 1 atm)
Water (p = 1 g/cm³)
L = 20 m
H = 30 m

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