Water Gs=1 1. In a test to determine the discharge coefficient of a 70 by 35 mm Venturi meter, the total weight of water passing through the meter in 5 minutes was 3.5 AN. A mercury differential gage connected to the inlet and throat of the meter showed an average mercury difference during that time of 300 mm. Determine the actual discharge if the same meter is used later on and a 250 mm difference is then observed h=300 mm Mercury, Hg Gs= assumo, 4 significant figures
Water Gs=1 1. In a test to determine the discharge coefficient of a 70 by 35 mm Venturi meter, the total weight of water passing through the meter in 5 minutes was 3.5 AN. A mercury differential gage connected to the inlet and throat of the meter showed an average mercury difference during that time of 300 mm. Determine the actual discharge if the same meter is used later on and a 250 mm difference is then observed h=300 mm Mercury, Hg Gs= assumo, 4 significant figures
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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![ल
Water
Gs=1
1. In a test to determine the discharge
coefficient of a 70 by 35 mm Venturi meter, the
total weight of water passing through the meter
in 5 minutes was 3.5 AN. A mercury differential
gage connected to the inlet and throat of the
meter showed an average mercury difference
during that time of 300 mm. Determine the
actual discharge if the same meter is used
later on and a 250 mm difference is then
observed
h = 300
mm
Mercury, Hg
Ga= assumo, 4 significant
figures](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F8ae79d8a-d363-47f3-b9d0-6157ebed497c%2F2958a92c-8998-43d0-9892-4ac0237c4d13%2Fhvhulwt_processed.jpeg&w=3840&q=75)
Transcribed Image Text:ल
Water
Gs=1
1. In a test to determine the discharge
coefficient of a 70 by 35 mm Venturi meter, the
total weight of water passing through the meter
in 5 minutes was 3.5 AN. A mercury differential
gage connected to the inlet and throat of the
meter showed an average mercury difference
during that time of 300 mm. Determine the
actual discharge if the same meter is used
later on and a 250 mm difference is then
observed
h = 300
mm
Mercury, Hg
Ga= assumo, 4 significant
figures
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