You come across an open container which is filled with two liquids. Since the two liquids...
You come across an open container that is filled with two liquids. Since the two liquids have different densities, there is a distinct separation between them. Water, which has a density of ρw=1.00×103 kg/m3, fills the lower portion of the container to a depth of 0.215 m. The fluid that is floating on top of the water is 0.342 m deep. If the absolute pressure on the bottom of the container is 1.049×105 Pa, what is the density, ρl, of...
You come across an open container that is filled with two liquids. Since the two liquids have different densities, there is a distinct separation between them. Water, which has a density of pw 1.00 x 103 kg/m, fills the lower portion of the container to a depth of 0.206 m. The fluid that is floating on top of the water is 0.342 m deep. If the absolute pressure on the bottom of the container is 1.049 x 10 Pa, what...
You come across an open container that is filled with two liquids. Since the two liquids have different densities, there is a distinct separation between them. Water, which has a density of ρw=1.00×103 kg/m3, fills the lower portion of the container to a depth of 0.209 m. The fluid that is floating on top of the water is 0.314 m deep. If the absolute pressure on the bottom of the container is 1.049×105 Pa, what is the density, ?l, of...
You come across an open container that is filled with two liquids. Since the two liquids have different densities, there is a distinct separation between them. Water, which has a density of pw = 1.00 x 100 kg/m", fills the lower portion of the container to a depth of 0.218 m. The fluid that is floating on top of the water is 0.349 m deep. If the absolute pressure on the bottom of the container is 1.049 x 10 Pa,...
water Pressure vs Depth - U Shaped Tube Two Fluids 2 As shown in the figures, a U-shaped tube open to the air at both sides contain some unknown liquid. Then water (density = 1000 kg/m 3) fills the Right arm of the U-tube (there is no intermixing between the two liquids). When equilibrium is reached, h1 = 0.18 m, and height of water h2 - 0.56 m. The atmospheric pressure is 1.013x105 Pa. What is the density of the...
The Seawolf class nuclear submarines have a crush depth of approximately d = 705 m. The density of seawater is ρ = 1.03×103 kg/m3. Atmospheric pressure is P0 = 1.01×105 Pa. Part (a) Find the inward force of the water, in newtons, at crush depth on a circular porthole with a radius of r = 0.39 m. Part (b) If the interior of the submarine is kept at atmospheric pressure, what will be the magnitude of the net force on the porthole, in newtons?
A swimming pool of depth 2.5 m is filled with ordinary (pure) water (ρ = 1000 kg/m3). (a) What is the pressure at the bottom of the pool? 1.2550×105 Pa (b) When the pool is filled with salt water, the pressure at the bottom changes by 5.2 x103Pa. What is the magnitude of the difference between the density of the salt water and the density of pure water? Please show your work :)
A bubble forms on the continental shelf at the bottom of the ocean near the coast. Assume the density of salt water is 1.05 g/cm3, and that the ocean is 0.650 km deep at this point. The pressure in the bubble is equal to the pressure in the surrounding water. a) What is the absolute pressure (in Pa) in the water at this depth? Assume that the air above the ocean is at a pressure of 1.013 x 105 Pa....
An atmospheric diving suit can be used for very deep dives of up 700 m under the sea level. Calculate the pressure experienced by the suit at this depth (note: the atmospheric pressure on Earth at the sea level P0= 1.01 x105 Pa ; density of water = 1000 kg/m3) Select one: a. 5.49 x 105 Pa b. 6.96 x 106 Pa c. 8.11 x 107 Pa d. 1.33 x 108 Pa e. None of the above
2. Two liquids, 1 and 2, are in equilibrium in a U-tube that is open at both ends, as in the drawing The liquids don t mix, and liquid i rests on top of liquid 2. How s the density to the density p2 of liquid 2? 10t i quid 1 reiated (a) p1 is equal to p2 because the liquids are in equilibrium (b) (b) p1 is greater than p2, because (c) ρ 1 is less than p2, because...