Open to Abmosphere Air P-76LPa 31P 30 cm 22 cm SG, - 13.55

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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**Diagram Explanation:**

The image depicts a U-tube manometer connected to two different fluids and open to the atmosphere. It illustrates the following components and measurements:

1. **Left Side of Manometer:**
   - Contains a fluid with a specific gravity (SG) of 13.55.
   - The height of this fluid column is 22 cm.
   - Connected to a source of air at a pressure of 76 kPa.

2. **Right Side of Manometer:**
   - Open to the atmosphere.
   - Contains another fluid whose specific gravity (SG₂) is unknown.
   - The height of this fluid column is measured as 30 cm.

The image is used to analyze pressures and fluid dynamics by comparing the heights and specific gravities of the two fluids in the manometer. This setup allows for the calculation of the unknown specific gravity (SG₂) using the principles of fluid statics and the given data.
Transcribed Image Text:**Diagram Explanation:** The image depicts a U-tube manometer connected to two different fluids and open to the atmosphere. It illustrates the following components and measurements: 1. **Left Side of Manometer:** - Contains a fluid with a specific gravity (SG) of 13.55. - The height of this fluid column is 22 cm. - Connected to a source of air at a pressure of 76 kPa. 2. **Right Side of Manometer:** - Open to the atmosphere. - Contains another fluid whose specific gravity (SG₂) is unknown. - The height of this fluid column is measured as 30 cm. The image is used to analyze pressures and fluid dynamics by comparing the heights and specific gravities of the two fluids in the manometer. This setup allows for the calculation of the unknown specific gravity (SG₂) using the principles of fluid statics and the given data.
A manometer attached to an air tank as shown. The gauge pressure in the tank has the pressure shown under the atmospheric pressure of 100 kPa. If the SG₁ of one fluid is 13.55, find the SG₂ of the other fluid (1 Pa = 1 N/m²).
Transcribed Image Text:A manometer attached to an air tank as shown. The gauge pressure in the tank has the pressure shown under the atmospheric pressure of 100 kPa. If the SG₁ of one fluid is 13.55, find the SG₂ of the other fluid (1 Pa = 1 N/m²).
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