A glass tube of uniform bore is bent into the form of a square of sides a and filled with equal amounts of three immiscible liquids of densities p, P2 and pg. It is known that P, < P2 < P3. If the tube arrangement is placed in a vertical plane (i.e. two sides vertical) and if one of the vertical sides is completely filled with the liquid of density p2. E 1 P2 (a) Show that (2P3 +pi) > P2 > (P3 + 2p,) 3 3 P3 (b) If the relative densities of the first and third liquids are 1.0 and 1.2 respectively, find the range of the relative densities of the second liquid which makes the above arrangement possible.

A glass tube of uniform bore is bent into the form of a square of sides a and filled with equal amounts of three immiscible liquids of densities p, P2 and pg. It is known that P, < P2 < P3. If the tube arrangement is placed in a vertical plane (i.e. two sides vertical) and if one of the vertical sides is completely filled with the liquid of density p2. E 1 P2 (a) Show that (2P3 +pi) > P2 > (P3 + 2p,) 3 3 P3 (b) If the relative densities of the first and third liquids are 1.0 and 1.2 respectively, find the range of the relative densities of the second liquid which makes the above arrangement possible.

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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Concept explainers

Pressurized pipe flow

A 15-kilometer-long pipe with a pipe diameter of one meter transports water at a speed of one meter per second. The pipe has a friction coefficient of 0.005. Calculate the frictional head loss?

Question

A glass tube of uniform bore is bent into
the form of a square of sides a and filled with equal amounts of
A
three immiscible liquids of densities p, P2 and p3. It is known that
P, < P2 < P3. If the tube arrangement is placed in a vertical plane
(i.e. two sides vertical) and if one of the vertical sides is completely
filled with the liquid of density P2-
E
P2
(a) Show that (2P3 + p;) > P2 > (P3 + 2p;)
G P3
(b) If the relative densities of the first and third liquids are
1.0 and 1.2 respectively, find the range of the relative
densities of the second liquid which makes the above
arrangement possible.
B.

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