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Water enters the mixing device shown in Fig. 1 at 150 L/s through pipe A, while oil with specific gravity 0.8 is forced in at 30 L/s through pipe B. If the liquids are incompressible and form a homogeneous mixture of oil globules in water, find the average velocity and density of the mixture leaving through the 30-cm-diameter pipe C. We can assume no chemical reaction between oil and water and its mixture is incompressible. Co Minture Fig. 1

Water enters the mixing device shown in Fig. 1 at 150 L/s through pipe A, while oil with specific gravity 0.8 is forced in at 30 L/s through pipe B. If the liquids are incompressible and form a homogeneous mixture of oil globules in water, find the average velocity and density of the mixture leaving through the 30-cm-diameter pipe C. We can assume no chemical reaction between oil and water and its mixture is incompressible. Co Minture Fig. 1

Structural Analysis
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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3. Water enters the mixing device shown in Fig. 1 at 150 L/s through pipe A, while oil with specific gravity 0.8 is forced in at 30 L/s through pipe B. If the liquids are incompressible and form a homogeneous mixture of oil globules in water, find the average velocity and density of the mixture leaving through the 30-cm-diameter pipe C. We can assume no chemical reaction between oil and water and its mixture is incompressible. Ol -Mixture Fig. 1
Transcribed Image Text:3. Water enters the mixing device shown in Fig. 1 at 150 L/s through pipe A, while oil with specific gravity 0.8 is forced in at 30 L/s through pipe B. If the liquids are incompressible and form a homogeneous mixture of oil globules in water, find the average velocity and density of the mixture leaving through the 30-cm-diameter pipe C. We can assume no chemical reaction between oil and water and its mixture is incompressible. Ol -Mixture Fig. 1
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