The flow-metering device shown in Figure 4 consists of a stagnation probe at station 2 and a static pressure tap at station 1. A water manometer is connected between the stagnation probe and the pressure tap, and a deflection of 10 cm is measured when air with a density of 1.1 kg/m³ flows through the duct. If the velocity at station 2 is twice that at station 1, what is the velocity at station 1?

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Q6. The flow-metering device shown in Figure 4 consists of a stagnation probe at station 2 and a static pressure tap at station 1. A water manometer is connected between the stagnation probe and the pressure tap, and a deflection of 10 cm is measured when air with a density of 1.1 kg/m³ flows through the duct. If the velocity at station 2 is twice that at station 1, what is the velocity at station 1?
Q6. The flow-metering device shown in Figure 4 consists of a
stagnation probe at station 2 and a static pressure tap at station 1.
A water manometer is connected between the stagnation probe
and the pressure tap, and a deflection of 10 cm is measured
when air with a density of 1.1 kg/m³ flows through the duct.
If the velocity at station 2 is twice that at station 1, what is the
velocity at station 1?
Vertical
Water
10 cm
Figure 4
Transcribed Image Text:Q6. The flow-metering device shown in Figure 4 consists of a stagnation probe at station 2 and a static pressure tap at station 1. A water manometer is connected between the stagnation probe and the pressure tap, and a deflection of 10 cm is measured when air with a density of 1.1 kg/m³ flows through the duct. If the velocity at station 2 is twice that at station 1, what is the velocity at station 1? Vertical Water 10 cm Figure 4
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