The food coloring will eventually mix with the liquid through the process of diffusion. At the start, all of the dye molecules are close together (so the area that they are in contains a high concentration of dye molecules). As they move around, they eventually move from this area of high concentration to an area of lower concentration (the rest of the water). After this process of diffusion is complete, the dye molecules are evenly distributed thoughout the entire liquid (the concentration is equal everywhere).
You can dip the irregular solid in a water or other suitable liquid. This is how, you can measure the volume of the solid. The mass can be measured by weighing scale. Mass/volume = density. It is easy to measure the mass and volume of the liquid. First measure the mass the container. Then add the liquid to it. You will get the mass of the liquid. Then measure the volume of the liquid. Use the above formula to calculate the density of the liquid.
They are the three states of matter for all substances. A solid has molecules packed tightly together; a liquid has molecules that have some room to move; gases have molecules that can move freely. eg for water the solid state is ice, the liquid state water and the gas state water vapour (steam)
Cutical is the cresent-shaped skin at the bottom of your nail which is just above your skin.
The best way would be to change the state of the water. In other words, have ice floating in liquid water, while steam is above that.
get you own personal ideas.hope i can help.--Well that person above was kinda an @$$^^Anyway My answer would be heat, causing the gas to cool down and become liquid.
because when you add it to water, it will go to the bottom of the container and the water will float above it
Vapor Pressure.
Any liquid left in a container will evaporate. When placed in a closed container, there will be an equilibrium between the liquid and its vapour present above the liquid. When the bottle is chilled, the falling temperature causes the vapour present above the liquid to condense to form liquid again which appears as mist on the inside of bottle.
Gases fill their container whereas a liquid takes the shape of its container and a solid has its own shape.Theoretically, Gas particles have no attractive forces towards one another. Therefore, they bounce around the container in elastic collisions. Liquid particles are quite strongly bound to one another so they sit in the bottom of the container due to gravity.In reality, some gases do have a certain density and will hover towards the bottom of the container eg carbon dioxide, CO2. If gas particles really had no inter-particular attractive forces then no gas would ever liquify. The gas has to be above its boiling point and at fairly low pressures to behave as an ideal gas and disperse evenly in its container.
At the bottom, there is the additional weight of the gas or liquid above the surface level.
Since liquids when expanding will generate some force, and the liquid cannot compress, it would be dangerous to not allow some ullage space in the container above the liquid. Some gas above the liquid can easily compress, and absorb the (thermal) expansion of the liquid.
The basic principle of the syphon system is that the difference of pressure at both the ends of the tube would drive the liquid from the level of higher pressure to that of lower pressure. If, suppose, the level of liquid becomes the same in both the container then flow of liquid would stop. So, if you want to send back the liquid, then you have raise the container above the first one, then liquid would start flow from the second to the first.
No, it doesn't. It will drop to the bottom because it will be heaver per volume than the liquid.
consider an enclosed container with liquid filled to the brim, the pressure at any point in the container due to the liquid is given by this formula Pressure = height x density x acceleration due to gravity, and the height we are using here is not the height of this point above the ground, but instead it is the height difference (or simply length) between this point and the top of container, as we are measuring the pressure at this point due to the liquid above. similarly, you can consider a container that is not enclosed but you must remember to include the atmostpheric pressure into the total pressure at the particular point you are measuring. hope this helps =)
Place container (3) beside container (6) at the bottom Place container (2) above the other container (3) place it in middle Left most pipe (2) route it with elbows until the down pipe then place a right elbow to fill container (3) at the bottom 2nd pipe (2) place a left elbow to fill container (2) 3rd pipe (3) place a left elbow to fill the container below container (2) pipe (1) elbow around the right side to reach the middle to fill bottom container (3)
Because above the bottom most layer there is maximum height of the liquid stands on. Also the expression for the pressure is hdg. h- height of the liquid. d-density of the liquid. g-acceleration due to gravity. Hence maximum h leads to max pressure.
Answer 1Until a Chemist can give a "chemistry" answer, I will use the answer from the perspective of wine making. Wine has many solids suspended in the raw fermentation batch. Over time, the solids will settle out to the bottom of the container.To get the "good" wine separated from the mess at the bottom of the container, tubing is inserted into the clear wine above, a syphon process is started.Then the pick-up end of the syphon is set just barely above the settled-out mess, so that only the clear wine is syphoned out, leaving the contaminated wine and solids in the original container.Therefore, the process of "decantation" is the removal of a "clean" portion of a liquid from above the sediment in a container.