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As you solve a fluids problem for the situation shown, you use the knowledge that the volume flow rate at 1 is the same as the volume flow rate at 2. Which of the following assumptions must be made to use this?

As you solve a fluids problem for the situation shown, you use the knowledge that the volume flow rate at 1 is the same as the volume flow rate at 2. Which of the following assumptions must be made to use this?

Elements Of Electromagnetics
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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As you solve a fluids problem for the situation shown, you use the knowledge that the volume flow rate at 1 is the same as the volume flow rate at 2. Which of the following assumptions must be made to use this? - The flow has no losses. - The flow is steady. - The flow is irrotational. - The flow is inviscid. - The flow is incompressible. **Diagram Explanation**: The image depicts a tube with two labeled points, 1 and 2, showing a slightly elevated section. Arrows within the tube indicate the direction of flow from point 1 to point 2. The equation \(\dot{V}_1 = \dot{V}_2\) is noted between the two points, indicating that the volumetric flow rates at both points are equal.
Transcribed Image Text:As you solve a fluids problem for the situation shown, you use the knowledge that the volume flow rate at 1 is the same as the volume flow rate at 2. Which of the following assumptions must be made to use this? - The flow has no losses. - The flow is steady. - The flow is irrotational. - The flow is inviscid. - The flow is incompressible. **Diagram Explanation**: The image depicts a tube with two labeled points, 1 and 2, showing a slightly elevated section. Arrows within the tube indicate the direction of flow from point 1 to point 2. The equation \(\dot{V}_1 = \dot{V}_2\) is noted between the two points, indicating that the volumetric flow rates at both points are equal.
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Volume flow rate also known as discharge is defined as the amount of fluid flowing through a given cross sectional area per unit time.

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