A jet impinges on a splitter block. The incoming jet is horizontal and has a flow rate of Q = 8000 cm/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 Q, = 6000 cm?/s and a cross-sectional area of Az = 30 cm?. The other jet is deflected downward by 45°, and has a flow rate of Q3 = 2000 cm /s and a cross-sectional area of As = 10 cm?. You may assume that the pressure everywhere is equal to atmospheric pressure, and the density of the fluid is 1000 kg/m?. Find the horizontal momentum flux in, Pz,in Q,= 6000 cm³/ A,= 30 cm2 Q,= 8000 cm³/s J. e = 45° e = 45° Az= 40 cm? A3= 10 cm2 Q3= 2000 cm³/s O a. 5.66 N Ob. -5.6 N O c. -8 N O d. 8N e. 16 N Of. -16 N ON
A jet impinges on a splitter block. The incoming jet is horizontal and has a flow rate of Q = 8000 cm/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 Q, = 6000 cm?/s and a cross-sectional area of Az = 30 cm?. The other jet is deflected downward by 45°, and has a flow rate of Q3 = 2000 cm /s and a cross-sectional area of As = 10 cm?. You may assume that the pressure everywhere is equal to atmospheric pressure, and the density of the fluid is 1000 kg/m?. Find the horizontal momentum flux in, Pz,in Q,= 6000 cm³/ A,= 30 cm2 Q,= 8000 cm³/s J. e = 45° e = 45° Az= 40 cm? A3= 10 cm2 Q3= 2000 cm³/s O a. 5.66 N Ob. -5.6 N O c. -8 N O d. 8N e. 16 N Of. -16 N ON
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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I need help finding the horizontal momentum flux out
![A jet impinges on a splitter block. The incoming jet is horizontal and has a flow rate of Q = 8000 cm/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 Q, = 6000 cm?/s and a cross-sectional area of
Az = 30 cm?. The other jet is deflected downward by 45°, and has a flow rate of Q3 = 2000 cm /s and a cross-sectional area of As = 10 cm?.
You may assume that the pressure everywhere is equal to atmospheric pressure, and the density of the fluid is 1000 kg/m?.
Find the horizontal momentum flux in, Pz,in
Q,= 6000 cm³/
A,= 30 cm2
Q,= 8000 cm³/s
J.
e = 45°
e = 45°
Az= 40 cm?
A3= 10 cm2
Q3= 2000 cm³/s
O a.
5.66 N
Ob.
-5.6 N
O c.
-8 N
O d. 8N
e.
16 N
Of.
-16 N
ON](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F507f99da-9967-4c1f-a8fd-4e55d78bcba3%2F83ae12d1-f3d4-4621-b911-95d287db8be2%2Fe8nekii_processed.png&w=3840&q=75)
Transcribed Image Text:A jet impinges on a splitter block. The incoming jet is horizontal and has a flow rate of Q = 8000 cm/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 Q, = 6000 cm?/s and a cross-sectional area of
Az = 30 cm?. The other jet is deflected downward by 45°, and has a flow rate of Q3 = 2000 cm /s and a cross-sectional area of As = 10 cm?.
You may assume that the pressure everywhere is equal to atmospheric pressure, and the density of the fluid is 1000 kg/m?.
Find the horizontal momentum flux in, Pz,in
Q,= 6000 cm³/
A,= 30 cm2
Q,= 8000 cm³/s
J.
e = 45°
e = 45°
Az= 40 cm?
A3= 10 cm2
Q3= 2000 cm³/s
O a.
5.66 N
Ob.
-5.6 N
O c.
-8 N
O d. 8N
e.
16 N
Of.
-16 N
ON
![Find the horizontal momentum flux out, z.out
O a. -16 N
O b. ON
C.
11.3 N
O d. 5.66 N
O e. -5.66 N
O f.
-11.3 N
& 16 N](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F507f99da-9967-4c1f-a8fd-4e55d78bcba3%2F83ae12d1-f3d4-4621-b911-95d287db8be2%2Fhs9504_processed.png&w=3840&q=75)
Transcribed Image Text:Find the horizontal momentum flux out, z.out
O a. -16 N
O b. ON
C.
11.3 N
O d. 5.66 N
O e. -5.66 N
O f.
-11.3 N
& 16 N
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