A jet impinges on a splitter block. The incoming jet is horizontal and has a flow rate of Q1 = 8000 cm³/s and a cross-sectional area of A, = 40 cm?. The block splits the jet in to two smaller jets. One is deflected upward by 45°, and has a flow rate of Q2 6000 cm/s and a cross-sectional area of A, = 30 cm2. Thebther jet is deflected downward by 45°, and has a flow rate of Q3 = 2000 cm³/s and a cross-sectional area of A3 = 10 cm2. You may assume that the pressure everywhere is equal to atmospheric pressure, and the density of the fluid is 1000 kg/m3. Find the horizontal momentum flux in, in

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A jet impinges on a splitter block. The incoming jet is horizontal and has a flow rate of Q1 = 8000 cm3/s and a cross-sectional area of A, = 40 cm2.
The block splits the jet in to two smaller jets. One is deflected upward by 45°, and has a flow rate of Q2 = 6000 cm³/s and a cross-sectional area of
A2 = 30 cm?. Thebther jet is deflected downward by 45°, and has a flow rate of Q3 = 2000 cm3/s and a cross-sectional area of A3 = 10 cm2,
You may assume that the pressure everywhere is equal to atmospheric pressure, and the density of the fluid is 1000 kg/m³.
Find the horizontal momentum flux in, x.in
Transcribed Image Text:A jet impinges on a splitter block. The incoming jet is horizontal and has a flow rate of Q1 = 8000 cm3/s and a cross-sectional area of A, = 40 cm2. The block splits the jet in to two smaller jets. One is deflected upward by 45°, and has a flow rate of Q2 = 6000 cm³/s and a cross-sectional area of A2 = 30 cm?. Thebther jet is deflected downward by 45°, and has a flow rate of Q3 = 2000 cm3/s and a cross-sectional area of A3 = 10 cm2, You may assume that the pressure everywhere is equal to atmospheric pressure, and the density of the fluid is 1000 kg/m³. Find the horizontal momentum flux in, x.in
Q,= 6000 cm
A2= 30 cm2
Q,= 8000 cm3/s .
e = 45°
e = 45°
A,= 40 cm2
%3D
A3= 10 cm2
Q3= 2000 cm3/s
Transcribed Image Text:Q,= 6000 cm A2= 30 cm2 Q,= 8000 cm3/s . e = 45° e = 45° A,= 40 cm2 %3D A3= 10 cm2 Q3= 2000 cm3/s
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