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Suppose water flows from a narrow pipe (pipe X) at low elevation into a wider pipe...
Water flows steadily from an open tank as shown in the figure. The elevation of...
Water flows steadily from an open tank as shown in the figure.
The elevation of
point 1 is H = 13 m ,
and the elevation of points 2 and 3 is h = 2 m .
The cross-sectional area at point 2 is 0.00069 m 2
; at point 3, where the water is
discharged, it is 0.00158 m 2 . The
cross-sectional area of the tank is very large compared with the
cross-sectional area of the pipe. Find...
Problem 1 (30): Water (density p 999 kg/m') flows through a pipe bend and constriction as...
Problem 1 (30): Water (density p 999 kg/m') flows through a pipe bend and constriction as shown in the schematic. The pipe section is connected to input and output pipes at loc ations A and B. the inlet point A is located 1 m higher in elevation compared to the exit point B. The total loss d ue to pipe friction, bend, and constriction can be approximated as EU = etY2 with et = 2.1 2 Find the total force...
Water flows through a pipe as shown below. A1 and A2 have equal radii of r1=r2=.05...
Water flows through a pipe as shown below. A1 and A2
have equal radii of r1=r2=.05 m. A3 has a radius r3=.15 m. The
section of the pipe between A1 and A2 is made that it has an
unknown cross sectional area. The initial velocity of the fluid and
pressure of the fluid and pressure at location 1 is 10 m/s and
6.01x10^5 N/m^2 respectively. (Water has a density of 1000 kg/m^3
also treat the water as ideal i.e. negligible...
A venturi meter is used to measure the flow speed of a fluid in a pipe....
A venturi meter is used to measure the flow speed of a fluid in a pipe. The meter is connected between two sections of the pipe (the figure); the cross-sectional area A of the entrance and exit of the meter matches the pipe's cross-sectional area. Between the entrance and exit, the fluid flows from the pipe with speed V and then through a narrow ''throat'' of cross-sectional area a with speed v. A manometer connects the wider portion of the...
Water flows through a pipe shaped as shown here. The pressure at the lower end of...
Water flows through a pipe shaped as shown here. The pressure at the lower end of the pipe is 296 kPa and the fluid velocity is 5.00 m/s. The upper end of the pipe is 0.600 m higher and the cross-sectional area is 1/3 of the area at the lower end. Calculate the velocity at the upper end of the pipe. 15 m/s Calculate the pressure at the upper end of the pipe.
Water flows at a rate of 30 gpm through a vertical pipe that changes size and...
Water flows at a rate of 30 gpm through a vertical pipe that changes size and contains a partially-closed valve that causes headloss. Point X is in the 2-inch diameter part of the pipe at elevation 127.15 ft and has a pressure of 65 psi and point Y is in the I inch diameter part of the pipe at elevation 135.23 ft and has a pressure of 62.7 psi. Which direction is water flowing-from X to Y or from Y...
Problem 5: The water flow through a horizontal pipe is split into two flows as shown...
Problem 5: The water flow through a horizontal pipe is split into two flows as shown in the figure below. Pipes areas are D = 15 cm and D2 = D3 = 10 cm. The flow discharge at pipes 2 and 3 are equal to 100 1s. Calculate the force acting at section 1 on flange bolts. Assume that fluid is ideal. (ywater = 9.810 kN/m², poil = 998 kgm?) 30° gal 30° 0 3
Water flows at a rate of 22 L/min through a horizontal 7.0-cm-diameter pipe under a pressure...
Water flows at a rate of 22 L/min through a horizontal 7.0-cm-diameter pipe under a pressure of 17.0 Pa . At one point, calcium deposits reduce the cross-sectional area of the pipe to 21 cm2 . What is the pressure at this point? (Consider the water to be an ideal fluid.) Express your answer using two significant figures.
Water flows at a rate of 21 L/min through a horizontal 8.0-cm-diameter pipe under a pressure...
Water flows at a rate of 21 L/min through a horizontal 8.0-cm-diameter pipe under a pressure of 3.8 Pa . At one point, calcium deposits reduce the cross-sectional area of the pipe to 39 cm2 . What is the pressure at this point? (Consider the water to be an ideal fluid.) Express your answer using two significant figures. p= Pa
The figure illustrates the flow of an ideal fluid through a pipe of circular cross section,...
The figure illustrates the flow of an ideal fluid through a pipe of circular cross section, with diameters of 1 cm and 2 cm and with different elevations. px is the pressure in the pipe, and Vy is the speed of the fluid at locations x = q, r, s, t, or u. Equal to Vpis .... 2vs Greater than Pris .... Pa Greater than Pg is .... Ps Equal to Vuis .... Va Submit Answer Incorrect. Tries 1/12 Previous...
Water flows steadily from an open tank as shown in the figure.
The elevation of
point 1 is H = 13 m ,
and the elevation of points 2 and 3 is h = 2 m .
The cross-sectional area at point 2 is 0.00069 m 2
; at point 3, where the water is
discharged, it is 0.00158 m 2 . The
cross-sectional area of the tank is very large compared with the
cross-sectional area of the pipe. Find...
Problem 1 (30): Water (density p 999 kg/m') flows through a pipe bend and constriction as shown in the schematic. The pipe section is connected to input and output pipes at loc ations A and B. the inlet point A is located 1 m higher in elevation compared to the exit point B. The total loss d ue to pipe friction, bend, and constriction can be approximated as EU = etY2 with et = 2.1 2 Find the total force...
Water flows through a pipe as shown below. A1 and A2
have equal radii of r1=r2=.05 m. A3 has a radius r3=.15 m. The
section of the pipe between A1 and A2 is made that it has an
unknown cross sectional area. The initial velocity of the fluid and
pressure of the fluid and pressure at location 1 is 10 m/s and
6.01x10^5 N/m^2 respectively. (Water has a density of 1000 kg/m^3
also treat the water as ideal i.e. negligible...
Water flows through a pipe shaped as shown here. The pressure at the lower end of the pipe is 296 kPa and the fluid velocity is 5.00 m/s. The upper end of the pipe is 0.600 m higher and the cross-sectional area is 1/3 of the area at the lower end. Calculate the velocity at the upper end of the pipe. 15 m/s Calculate the pressure at the upper end of the pipe.
Water flows at a rate of 30 gpm through a vertical pipe that changes size and contains a partially-closed valve that causes headloss. Point X is in the 2-inch diameter part of the pipe at elevation 127.15 ft and has a pressure of 65 psi and point Y is in the I inch diameter part of the pipe at elevation 135.23 ft and has a pressure of 62.7 psi. Which direction is water flowing-from X to Y or from Y...
Problem 5: The water flow through a horizontal pipe is split into two flows as shown in the figure below. Pipes areas are D = 15 cm and D2 = D3 = 10 cm. The flow discharge at pipes 2 and 3 are equal to 100 1s. Calculate the force acting at section 1 on flange bolts. Assume that fluid is ideal. (ywater = 9.810 kN/m², poil = 998 kgm?) 30° gal 30° 0 3
The figure illustrates the flow of an ideal fluid through a pipe of circular cross section, with diameters of 1 cm and 2 cm and with different elevations. px is the pressure in the pipe, and Vy is the speed of the fluid at locations x = q, r, s, t, or u. Equal to Vpis .... 2vs Greater than Pris .... Pa Greater than Pg is .... Ps Equal to Vuis .... Va Submit Answer Incorrect. Tries 1/12 Previous...
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