A tank is full of oxygen (M=32 g/mol) and open at the top. There is a frictionless nozzle near the bottom, the diameter of which is so small compared with the diameter of the tank that the velocity at the free surface is zero. There is no friction and nonflow work. Assuming ideal gas behavior for both of oxygen and air (M=29 g/mol), what is the velocity of the steady flow out of the nozzle? Point 1 h=30 ft Point 2
A tank is full of oxygen (M=32 g/mol) and open at the top. There is a frictionless nozzle near the bottom, the diameter of which is so small compared with the diameter of the tank that the velocity at the free surface is zero. There is no friction and nonflow work. Assuming ideal gas behavior for both of oxygen and air (M=29 g/mol), what is the velocity of the steady flow out of the nozzle? Point 1 h=30 ft Point 2
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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Transcribed Image Text:A tank is full of oxygen (M-32 g/mol) and open at the top.
There is a frictionless nozzle near the bottom, the diameter of
which is so small compared with the diameter of the tank that
the velocity at the free surface is zero. There is no friction and
nonflow work. Assuming ideal gas behavior for both of
oxygen and air (M-29 g/mol), what is the velocity of the
steady flow out of the nozzle?
the Berp
Tomall% Fashion
Point 1
h=30 ft
Point 2
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