The two tubes in a bubbler system are placed in a liquid with a density of...

If the pressure at the surface of a tank of water is 0. What is the...

If the pressure at the surface of a tank of water is 0. What is the water pressure 20 ft below the surface in units of psi (pounds per square inch)? Note the density of water is 1.94 slugs/ft3. Show all unit conversions

P7 If separate piezo tubes and pitot tubes were placed in the upper surface of a...

P7 If separate piezo tubes and pitot tubes were placed in the upper surface of a channel of pressurized flow of water, the static and stagnation pressures respectively would be indicated by the difference in heights of the fluid rising up in the two tubes. If the difference in heights is 3 inches (1/4 foot), what is the velocity of water flow?

Some newly discovered liquid substance has density of 13, 000 kg/m3, gold has density of 19,300...

Some newly discovered liquid substance has density of 13, 000 kg/m3, gold has density of 19,300 kg/m3. Place a gold ring of 1.5 cm3 inside a lake made of this newly discovered liquid. The ring will _________________ Group of answer choices a)sink to the bottom. b)sink until it is entirely submerged and then remain in place just few centimeters below the surface. c)rest on the liquid with none of the ring submerged. d)float.

The density of alcohol is 806 kg/m3. A sphere is placed 24 cm below the surface...

The density of alcohol is 806 kg/m3. A sphere is placed 24 cm below the surface where it experiences a buoyant force of 135 N. Calculate (a) the radius of the sphere (b) the pressure at that depth.

A cylindrical tank of radius R is filled with a liquid of density  to a...

A cylindrical tank of radius R is filled with a liquid of density  to a height H above its bottom. It has a small hole of radius r in the mantle at distance h above its bottom. Air pressure equals p0. You are to use Bernoulli’s equation to compute the flow velocity of the fluid as it exits the hole. a) Prepare a diagram. Indicate the location of the two points that you choose when applying Bernoulli’s equation. What...

Chlorobenzene (density of 1109 kg / m3) and an aqueous washing liquid (density of 1020 kg...

Chlorobenzene (density of 1109 kg / m3) and an aqueous washing liquid (density of 1020 kg / m3) are separated in a tubular centrifuge with an internal diameter of 150 mm which rotates at 8000 r / min. The free surface of the liquid inside the container is 40 mm of the axis of rotation. If the centrifuge contains equal volumes of the two liquids, What will be the radial distance from the axis of rotation to the top of...

Liquid helium at 4.2 K has a density of 0.147 g/mL. Suppose that a 2.00-L metal...

Liquid helium at 4.2 K has a density of 0.147 g/mL. Suppose that a 2.00-L metal bottle that contains air at 114K and 2.0 atm pressure is sealed off. If we inject 130.0 mL of liquid helium and allow the entire system to warm to room temperature (25°C), what is the pressure inside the bottle?

(a) If two sound waves, one in a gas medium and one in a liquid medium,...

(a) If two sound waves, one in a gas medium and one in a liquid medium, are equal in intensity, what is the ratio of the pressure amplitude of the wave in the liquid to that of the wave in the gas? Assume that the density of the gas is 2.05 kg/m3 and the density of the liquid is 1030 kg/m3. The speed of sound is 341 m/s in the gas medium and 1490 m/s in the liquid. (b) If...

13. Solid HgO, liquid Hg, and gaseous O2 are placed in a glass bulb and the...

13. Solid HgO, liquid Hg, and gaseous O2 are placed in a glass bulb and the reaction below is allowed to reach equilibrium. 2HgO(s) 2Hg(l) + O2(g); ΔH = +181.6 kJ With the system at equilibrium, the amount of Hg(l) in the bulb can be increasedA) by removing some HgO(s). B) by adding an inert gas. C) by adding some HgO(s). D) by increasing the pressure. E) by increasing the temperature.

1.) A liquid of density 1390 km/m^3 flows steadily through a pipe of varying diameter and...

1.) A liquid of density 1390 km/m^3 flows steadily through a pipe of varying diameter and height. At Location 1 along the pipe, the flow speed is 9.31 m/s and the pipe d1 diameter is 10.3cm . At Location 2, the pipe diameter d2 is 17.5 cm . At Location 1, the pipe is triangle y= 9.31m higher than it is at Location 2. Ignoring viscosity, calculate the difference between the fluid pressure at Location 2 and the fluid pressure...