Two different liquids, X and Y, have densities of 0.781 g/mL and 1.27 g/mL respectively. When the liquids are combined, one liquid floats atop the other. Which liquid is the top layer?
Two different liquids, X and Y, have densities of 0.781 g/mL and 1.27 g/mL respectively. When...
5. The densities of some liquids are given below. Liquids Density (g/mL) Water 1.0 Carbon tetrachloride 1.6 Mercury 13.6 0.65 a) A graduated cylinder is filled with approximately 10 mL of each liquid. Draw and label the layers of the liquid in the graduated cylinder. b) If you drop a diamond (density = 3.5 g/mL) into the graduated cylinder filled with the above liquids, in what layer would it be found? Illustrate. CHEM 40 LAB MANUAL 2019-2020 Page 61
Two immiscible liquids with the following densities was poured into a test tube. Liquid A has a density of 1.078 g/mL and liquid B has a density of 0.9887 g/mL. Decide which liquid is on the bottom of the test tube? Write A or B
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,...
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...
In one experiment two liquids are introduced into different flasks and They weigh on different scales. You want to find the total mass of the liquid. I know we use: Mass of flask 1 + liquid = 540 ± 10 g, Mass of flask 1 empty = 72 ± 1 g and Mass of flask 2 + liquid = 940 ± 20 g and, Mass of flask 1 empty = 97 ± 1 g. What is the total mass of...
You have a solution of two volatile liquids, X and Y. Pure liquid X has a vapor pressure of 410.0 torr and pure liquid Y has a vapor pressure of 150.0 torr at the temperature of the solution. The mole fraction of X in the vapor at equilibrium above the solution is 1.5 times the mole fraction of liquid X in the solution. What is the mole fraction of liquid X in the solution?
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 which is filled with two liquids. Since the two liquids have different density there is a distinct separation between them. Water fills the lower portion of the container to a depth of 0.200 m which has a density of 1.00 x 103 kg/m3. The fluid which 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...
time to flow through funnel trial Liquid X Liquid Y 1.99s 2.07s 1.82 s Note: the two liquids have the same density. 0.80 s 0.85 s 0.83 s 3 What's different about liquids X and Y? Your answer should be the one- or two-word name of a physical property.
When two volatile liquids, X and Y, are mixed, the solution process involves 1. breaking the intermolecular X--X and Y...Y attractions, and 2. forming new X...Y attractions. Complete the table describing how the relative strengths of these attractive forces affect vapor pressure and enthalpy of solution. Raoult's law deviations AH Strength of the attractive forces X X , Y..Y, and X...Y are equal X...Y is strongest X...Y is weakest Answer Bank negative positive zero