(a) A pitot-static probe shown in Figure 1 is a device that can be used to measure flowing liquid or air velocity. The probe is connected to a manometer and inserted into a duct to measure the air velocity. [Kuar pitot-statik seperti dalam Rajah 1 adalah sebuah peranti yang boleh digunakan untuk mengukur halaju cecair atau udara. Kuar ini dihubungkan dengan sebuah manometer dan dimasukkan ke dalam sebuah saluran bagi mengukur halaju udara.] Static pressure Flow port 2 Total pressure port 1 Static pressure to transducer Total pressure to transducer

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
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answer question 2.a.ii quickly.. this is not graded question
Question 2
[Soalan 2]
(a) A pitot-static probe shown in Figure 1 is a device that can be used to measure
flowing liquid or air velocity. The probe is connected to a manometer and inserted
into a duct to measure the air velocity.
[Kuar pitot-statik seperti dalam Rajah 1 adalah sebuah peranti yang boleh digunakan untuk
mengukur halaju cecair atau udara. Kuar ini dihubungkan dengan sebuah manometer dan
dimasukkan ke dalam sebuah saluran bagi mengukur halaju udara.]
Static pressure
Flow
port 2
Total pressure
port 1
Static pressure
to transducer
Total pressure
to transducer
Figure 1
[Rajah 1]
Transcribed Image Text:Question 2 [Soalan 2] (a) A pitot-static probe shown in Figure 1 is a device that can be used to measure flowing liquid or air velocity. The probe is connected to a manometer and inserted into a duct to measure the air velocity. [Kuar pitot-statik seperti dalam Rajah 1 adalah sebuah peranti yang boleh digunakan untuk mengukur halaju cecair atau udara. Kuar ini dihubungkan dengan sebuah manometer dan dimasukkan ke dalam sebuah saluran bagi mengukur halaju udara.] Static pressure Flow port 2 Total pressure port 1 Static pressure to transducer Total pressure to transducer Figure 1 [Rajah 1]
(ii) If the pressure difference of the water column is 8.5 cm, calculate the air
velocity at port 1 and 2. The density of air and water is given to be 1.25 kg/m³
and 1000 kg/m³, respectively.
[Jika perbezaan tekanan di dalam lajur air adalah 8.5 cm, hitung halaju udara pada liang 1
dan 2. Ketumpatan udara dan air adalah masing-masing 1.25 kg/m³ and 1000 kg/m³.]
Transcribed Image Text:(ii) If the pressure difference of the water column is 8.5 cm, calculate the air velocity at port 1 and 2. The density of air and water is given to be 1.25 kg/m³ and 1000 kg/m³, respectively. [Jika perbezaan tekanan di dalam lajur air adalah 8.5 cm, hitung halaju udara pada liang 1 dan 2. Ketumpatan udara dan air adalah masing-masing 1.25 kg/m³ and 1000 kg/m³.]
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