Air at atmospheric conditions (101.3 kPa and 20° C) enters the bottom of a 90° conical flowmeter duct at a mass flow rate of 0.4 kg/s, as shown in Fig. 4. It is able to support a centered conical body by steady annular flow around the cone. The air velocity at the upper edge of the body equals the entering velocity. Estimate the weight of the body in newtons 90 -d = 7.5 cm Fig. 4

Air at atmospheric conditions (101.3 kPa and 20° C) enters the bottom of a 90° conical flowmeter duct at a mass flow rate of 0.4 kg/s, as shown in Fig. 4. It is able to support a centered conical body by steady annular flow around the cone. The air velocity at the upper edge of the body equals the entering velocity. Estimate the weight of the body in newtons 90 -d = 7.5 cm Fig. 4

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

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Applied Fluid Mechanics

A fluid is a substance that is continuously deformed by the application of shear stress. The rate of deformation of a fluid depends on its viscosity. The fluid tries to flow when it interacts with some other system.

Question

Air at atmospheric conditions (101.3 kPa and 20° C) enters the bottom of a 90°
conical flowmeter duct at a mass flow rate of 0.4 kg/s, as shown in Fig. 4. It is
able to support a centered conical body by steady annular flow around the
cone. The air velocity at the upper edge of the body equals the entering
velocity. Estimate the weight of the body in newtons
90°
-d = 7.5 cm
Fig. 4

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