Find the horizontal force that the fluid exerts on the block, FR.XО а.ONO b. 27.3 NО с.-16 NO d. 11.3 NО е.16 NO f.-11.3 Ng. -27.3 NO h. 4.7 NO i.4.7 N 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 A1 = 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 cm3/s and a cross-sectional area ofA, = 30 cm2. The other 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.Q2= 6000 cm³/A,= 30 cm2Q,= 8000 cm³/s%3De = 45°e = 45°A,= 40 cm²A3= 10 cm2Q3= 2000 cm3/s

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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 A1 = 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 cm2. The other 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. Q2= 6000 cm³/ A,= 30 cm? Q,= 8000 cm³/s e = 45° %D e = 45° A,= 40 cm² A3= 10 cm2 Q3= 2000 cm³/s %3D

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 A1 = 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 cm2. The other 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. Q2= 6000 cm³/ A,= 30 cm? Q,= 8000 cm³/s e = 45° %D e = 45° A,= 40 cm² A3= 10 cm2 Q3= 2000 cm³/s %3D

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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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 A1 = 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 A, = 30 cm?. The other 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, or in Q,= 6000 cm³/ A2= 30 cm2 Q,= 8000 cm³/s . %3D e = 45° e = 45° A,= 40 cm² %3D A3= 10 cm² Q3= 2000 cm3/s
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