(b) Air flows through a pipe at a rate of 0.17 m³/s. The pipe consists of diameters 0.18 m and 0.1 m with a smooth reducing section as shown in Figure 2 (below). The pressure difference between the two pipe sections is measured by a water manometer. Neglecting frictional effects, determine the differential height of water between the two pipe sections. Take the air and water density to be 1.2 kg/m³ and 1000 kg/m³ respectively. 0.18 m 12 h E

Elements Of Electromagnetics
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(b)
Air flows through a pipe at a rate of 0.17 m³/s. The pipe consists of diameters 0.18 m and
0.1 m with a smooth reducing section as shown in Figure 2 (below). The pressure
difference between the two pipe sections is measured by a water manometer. Neglecting
frictional effects, determine the differential height of water between the two pipe
sections. Take the air and water density to be 1.2 kg/m³ and 1000 kg/m³ respectively.
0.18 m
12
h
E
Transcribed Image Text:(b) Air flows through a pipe at a rate of 0.17 m³/s. The pipe consists of diameters 0.18 m and 0.1 m with a smooth reducing section as shown in Figure 2 (below). The pressure difference between the two pipe sections is measured by a water manometer. Neglecting frictional effects, determine the differential height of water between the two pipe sections. Take the air and water density to be 1.2 kg/m³ and 1000 kg/m³ respectively. 0.18 m 12 h E
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