A Venturi tube exhibits a pressure difference of 25 kPa (between the sections) with a fluid...

A refinery uses a Venturi tube like the one shown in the figure to monitor the...

A refinery uses a Venturi tube like the one shown in the figure to monitor the flow of gasoline (ρ = 7.00  102 kg/m3) through a hose. The inlet radius of the Venturi tube is 1.90 cm,the outlet radius is 1.20 cm, and the difference in pressure measured by the two gauges is P1 − P2 = 1.40 kPa. (a) Determine the speed of the gas as it leaves the Venturi tube. m/s (b) Determine the volume flow rate of the...

A venturi meter is a device for measuring the speed of a fluid within a pipe....

A venturi meter is a device for measuring the speed of a fluid within a pipe. The drawing shows a gas flowing at a speed v2 through a horizontal section of pipe whose cross-sectional area A2 = 0.0600 m2. The gas has a density of ϝ = 1.40 kg/m3. The Venturi meter has a cross-sectional area of A1 = 0.0400 m2 and has been substituted for a section of the larger pipe. The pressure difference between the two sections is...

A venturi meter is a device for measuring the speed of a fluid within a pipe....

A venturi meter is a device for measuring the speed of a fluid within a pipe. The drawing shows a gas flowing at a speed v2 through a horizontal section of pipe whose cross-sectional area A2 = 0.0800 m2. The gas has a density of ρ = 1.70 kg/m3. The Venturi meter has a cross-sectional area of A1 = 0.0500 m2 and has been substituted for a section of the larger pipe. The pressure difference between the sections is P2...

A Venturi tube is mounted on the outside of the fuselage of an aircraft. The tube...

A Venturi tube is mounted on the outside of the fuselage of an aircraft. The tube is known to have an opening 10 cm circular, tapering to a diameter of 2.5 cm and then reopening to diameter original. Determine: a) The pressure difference between the initial opening and the narrowing of the Venturi tube, assuming that the aircraft is flying at a constant speed of 38 m / s at a low altitude, where the air density can be considered...

Suppose air, with a density of 1.29 kg/m3 is flowing into a Venturi meter. The narrow...

Suppose air, with a density of 1.29 kg/m3 is flowing into a Venturi meter. The narrow section of the pipe at point A has a diameter that is 0.402 times the diameter of the larger section of the pipe at point B. The U-shaped tube is filled with water and the difference in height between the two sections of pipe is h = 1.96 cm. How fast is the air moving at point B?

A fluid of constant density equal to 880 kg/m3 is flowing steadily through a contracting expanding...

A fluid of constant density equal to 880 kg/m3 is flowing steadily through a contracting expanding pipe. The diameters at the sections are d1= 125 mm and d2 = 75 mm. The gauge pressure at the first section is P1 = 220 kN/m3 and the velocity is 4.25 m/s. What is the velocity at the second section? what is the gauge pressure at the second section?

A venturimeter is used to measure water flow rate of 7.5m^3/min. If pressure difference between the...

A venturimeter is used to measure water flow rate of 7.5m^3/min. If pressure difference between the wide and throat sections of the venturi is 12.50 kPa, and the pipe diameter at the wide section is 20 cm, calculate the throat diameter. (Use density=1000 kg/m^3 and coefficient of discharge Cd=0.96).

An incompressible fluid is flowing through a pipe with a constriction. The pipe is on an...

An incompressible fluid is flowing through a pipe with a constriction. The pipe is on an incline with an angle of 30.0 degrees. The narrow section is 15.0 m from the wide section and the narrow section is lower than the wide section. The velocity of the fluid in the wide section of the pipe is 4.00 m/s and the velocity of the fluid in the narrow section of pipe is 9.00 m/s. The pressure of the fluid in the...

In ideal flow, a liquid of density 940 kg/m3 moves from a horizontal tube of radius...

In ideal flow, a liquid of density 940 kg/m3 moves from a horizontal tube of radius 1.60 cm into a second horizontal tube of radius 0.800 cm at the same elevation as the first tube. The pressure differs by ΔP between the liquid in one tube and the liquid in the second tube. (a) Find the volume flow rate as a function of ΔP. (b) Evaluate the volume flow rate for ΔP = 7.00 kPa. L/s (c) Evaluate the volume...

V=a*sqrt[2(????)gh /? (A^2 ? a^2 )] The Venturi meter. By applying Bernoulli's equation and the continuity...

V=a*sqrt[2(????)gh /? (A^2 ? a^2 )] The Venturi meter. By applying Bernoulli's equation and the continuity equation to the pipe cross-section at points 1 and 2 in the diagram of the Venturi meter at right, show that the speed of the flow at the entrance is where ? ? and ? are the densities of the fluids in the U-bend and the pipe, respectively, where A and a are the flow's cross-sectional area at points 1 and 2 respectively, where...