Two different manometers are used to read a pressure. One uses water of density 1.0 g/cm3 and reads “150 cm water”. The other one uses an unknown liquid, X, and reads “1650 mm X”. What is the density of liquid X, in kg/m3? Do not type in units.
Summary: I applied formula for the pressure in terms of density of liquid.
Two different manometers are used to read a pressure. One uses water of density 1.0 g/cm3...
Two different manometers are used to read a pressure. One uses water of density 1.0 g/cm3 and reads “150 cm water”. The other one uses an unknown liquid, X, and reads “1650 mm X”.What is the density of liquid X, in kg/m3? Do not type in units.
Neglecting the pressure drop due to resistance, calculate the blood pressure, in pascals, in an artery in the brain 30 cm above the heart. The pressure at the heart is 120 mm Hg. The density of blood is 1.05 g/cm2 and the density of mercury is 13600 kg/m2. Do not type in units. Two different manometers are used to read a pressure. One uses water of density 1.0 g/cm3 and reads "150 cm water". The other one uses an unknown...
A fluid of unknown density is used in two manometers-one sealed-end, the other across an orifice in a water pipeline. The readings shown here are obtained on a day when barometric pressure is 756 mm Hg. What is the pressure drop (mm Hg) from point (a) to point (b)?
-refer to a vertical cylindrical beaker holding water. The density of water is 1.0 g/cm3. The volume of a cylinder is πR2H, where R is the radius of the cylinder and H is the height. If the beaker holds 1.49 kg of water and the bottom of the container has a diameter of 7.35 cm, what is the water pressure at the bottom of the cylinder in Pascals (N/m2)?
Water has a density of 1.0 g/cm3. Consider two cubes, one of aluminum and one of copper. If each cube measures 10 cm along an edge, calculate the mass of each cube. physics
Neglecting the pressure drop due to resistance, calculate the blood pressure, in pascals, in an artery in the brain 30 cm above the heart. The pressure at the heart is 120 mm Hg. The density of blood is 1.05 g/cm3 and the density of mercury is 13600 kg/m3. Do not type in units.
A solid cylinder of uniform density of 0.85 g/cm3 floats in a glass of water tinted light blue by food coloring. Its circular surfaces are horizontal. What effect will the following changes, each made to the initial system, have on X, the height of the upper surface above the water? The liquids added do not mix with the Water and the cylinder never hitsS the bottom. A liquid with a density of 0.76 g/cm3 is poured into the glass. The...
The question refers to a vertical cylindrical beaker holding water. The density of water is 1.0 g/cm3. The volume of a cylinder is πR2H, where R is the radius of the cylinder and H is the height. If the beaker holds 2.47 kg of water and the bottom of the container has a diameter of 5.44 cm, what is the water pressure at the bottom of the cylinder in Pascals (N/m2)?
Assuming that water has a density of exactly 1.00 g/cm3, find the mass of one cubic meter of water in kilograms. Suppose that it takes takes 8.0 h to drain a container of 7430 m3 of water. What is the "mass flow rate", in kilograms per second, of water from the container?
A solid cylinder of uniform density of 0.85 g/cm3 floats in a glass of water tinted light blue by food coloring. Its circular surfaces are horizontal. What effect will the following changes, each made to the initial system, have on X, the height of the upper surface above the water? The liquids added do not mix with the water, and the cylinder never hits the bottom. Answer choices are: I-Increase, D-Decrease, N-No Change (a) The cylinder is replaced with one...