Answered: Air flows through the tube shown in the… | bartleby

Related questions

Question

Air flows through the tube shown in the figure at a rate of 1200cm^3/s . Assume that air is an ideal fluid. Assume that air is an ideal fluid. P mercury = 13,600 kg/m^3 and P air = 1.20 kg/m^3.

a, what is the hight of the mercury on the right side of the U-tube in cm?

4.0 mm
2.0 cm
1200 cm/s
h
Hg

Expert Solution

Trending now

This is a popular solution!

Step by step

Solved in 2 steps with 2 images

SEE SOLUTION Check out a sample Q&A here

Blurred answer

Similar questions

Bowling balls are roughly the same size but come in a variety of weights. Given that the official radius a bowling ball should have is roughly 0.110 m, calculate the weight of the heaviest bowling ball that will float in a fluid of density 1.000 x 10° kg/m³. weight: N
Suppose you have a 9.6 cm diameter fire hose with a 2.2 cm diameter nozzle. a.) Calculate the pressure drop due to the Bernoulli effect as water enters the nozzle from the hose at the rate of 40.0 L/s. Take 1.00 × 103 kg/m3 for the density of the water. b.) To what maximum height, in meters, above the nozzle can this water rise? (The actual height will be significantly smaller due to air resistance.)
An airplane flies on a level path. There is a pressure difference of 618 Pa between the lower and upper surfaces of the wings. The area of each wing surface is about 100 m2. The air moves below the wings at a speed of 80.5 m/s. A.)Estimate the weight of the plane. B.)Estimate the air speed above the wings. Density of air is 1.29 kg/m3.
1. A U-tube contains liquid of unknown density. An oil of density 780 kg/m³ is poured into one arm of the tube until the oil column is 11.5 cm high. The oil-air interface is then 5.0 cm above the liguid level in the other arm of the U-tube. Find the density of the liquid. kg/m3 0741 na741 na41na74na74 741 na741 na74 n741 na741 741 na741 na741 na7 0741 na741 n
B. An ideal incompressible fluid flows at 0.4 m/s throug a square pipe with a side of 7.0 cm. The pipe narrowst a cylindrical pipe with a radius of 30 mm. assume steac flow throughout the system. What is the speed of fluid through the narrow section of the pipe?
A cylinder that is hi = 18.5 cm tall and open on top is filled with water. If a hole is made in the side of the cylinder, Ah Ah = 3.40 cm below the top level, how far x from the base of the cylinder will the stream land? h, Assume that the cylinder is large enough so that the level of the water in the cylinder does not drop significantly. cm
A common way of salvaging cannons from old wrecks is to attach an inflatable balloon filed with air. Assume that the cannon is a solid cylinder of iron which is 1.30m long with a radius 17.3cm. The density of iron is 7.87g/cm^3. If an air bag were filled twice the volume necessary. a. What volume of air bag wil be floating above the water surface?
A hydraulic piston has two surfaces which can move when a force is applied to them. On the left side, the piston surface is circular with a cross-sectional radius of 10 cm and on the right side it is square with a side of length 30 cm. A. If I push on the left side with 100 N of force, what total force will be exerted by the fluid in the piston on the right side? B. If I displace the piston on the left side by 18 cm, how far will the right surface move?
The figure illustrates flow through a pipe with diameters of 1 mm and 2 mm and with different elevations. px is the pressure in the pipe, and vx is the speed of a non-viscous incompressible fluid at locations x = Q,R,S,T, or U. T R D=1mm D= 2 mm Select the correct answers. Less than V PQ is PU. Less than V VT is ... 2vQ. Greater than Pu is ... PT. Submit Answer Incorrect. Tries 11/12 Previous Tries Post Discussion S Send Feedback
Bowling balls are roughly the same size but come in a variety of weights. Given that the official radius a bowling ball should have is roughly 0.111 m, calculate the weight of the heaviest bowling ball that will float in a fluid of density 1.100 × 10° kg/m³. weight: N
لابد B A These four containers are filled with the same volume of water. Which has the highest pressure at the bottom? A B C
In the figure below, the velocity and pressure of an ideal fluid are v1 = %3D 2.0 m/s and P1 = 180 kPa at Point 1, respectively. What is P2, the pressure at Point 2? Notice the change in cross-sectional area of the tube. 6.0 cm 2.0 cm 10 kPa. 20 kPa. 30 kPa. 40 kPa. 50 kPa.

SEE MORE QUESTIONS