Airflow in a Venturi tube with a flow rate of 2.12m³/s is shown in the figure. The density of air is measured as 1.22kg/m³. The entrance diameter in the Venturi tube is D=34cm, the height of mercury on the top manometer is hm=2.5cm and the height from the water free surface is h=15cm. Find the diameter, d of the narrow section. Neglect all the head losses and the compressibility effects in the system. Take the density of mercury as 13600kg/m and density of water as 1000kg/m³. h=25 cm Hercury D-34cm
Airflow in a Venturi tube with a flow rate of 2.12m³/s is shown in the figure. The density of air is measured as 1.22kg/m³. The entrance diameter in the Venturi tube is D=34cm, the height of mercury on the top manometer is hm=2.5cm and the height from the water free surface is h=15cm. Find the diameter, d of the narrow section. Neglect all the head losses and the compressibility effects in the system. Take the density of mercury as 13600kg/m and density of water as 1000kg/m³. h=25 cm Hercury D-34cm
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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Fluid mechanics
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Airlow in a Venturi tube with a flow rate of 2.12m³/s is shown in the figure. The
density of air is measured as 1.22kg/m3. The entrance diameter in the Venturi tube is
D=34cm, the height of mercury on the top manometer is hm=2.5cm and the height
from the water free surface is h,=15cm. Find the diameter, d of the narrow section.
Neglect all the head losses and the compressibility effects in the system. Take the
density of mercury as 13600kg/m³ and density of water as 1000kg/m³.
hm=25 cm
Hercury
D-34CM
Water
24cm
B
28cm
21cm
17cm
12cm
acer
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