If you boil it, the water will boil and the dye will not, leaving you with dye.
If you wish to retrieve the water but not the dye, add a stick of celery or two into the mixture and leave for a while. The dye will penetrate the celery, changing the colour of it, while leaving most (98%) of the water. This is called osmosis. If you want to keep the dye but not the water, simply VERY slowly heat the mixture so that the water evaporates. Or, if you're not in a rush, leave in on a windowsill for a few hours or days for the sun to evaporate the water naturally. Eventually you'll be left with the dye. This is called evaporation.
Mung beans would imbibe water and dye solution .
In hot water the water atoms are in an excited state, meaning that they will move around more and come into contact with things more often. they are more likely to bond to substances as the activation energy is available. This is similar to sugar dissolving more readily in hot water compared to cold.
Perhaps the most common use of eosin dye is in blood testing. Technicians mix the dye with a small amount of blood, then count how many cells absorb the fluorescent red dye. Several serious diseases cause a count of more than 500 eosinophils/microlitre of blood.
Dye spreads in water via a process called diffusion. Diffusion occurs in fluids (gases or liquids) and it involves particles moving from a high concentration to a low concentration. So in this context the dye is dropped in and spreads from the high concentration (where the dye was dropped in) to the rest of the water as it has a low or nil concentration of the dye in question. This happens until equilibrium where there is an equal concentration throughout the water. That is why it appear to dilute the dye as the final concentration is actually less than that of the original dye as it has spread out. Therefore this effect will be more pronounced in larger bodies of water as it spread through a larger amount of space so it spread out more and therefore less concentrated.
Random movement of a suspense particles in the swamp of smaller particles can be observed through motion of pollen or dust in water using Microscope. A more simple prove would be diffusion test using dye in the still water. If the molecules of the water isn't move then there can't be such thing as dissolving of dye without stirring. Trace of dye dissipation in water can show how the water molecules motion cause the dye to move with it.
when there are fewer of one kind of particle this a low concentration
No because they are the same type of dye with the same base mixed with different materials
The particles of the dye and the gelatin slowly begin to mix because of diffusion. Dye and gelatin, like all matter are made up of tiny particles.
Diffusion is the movement of particles from an area of high concentration to an area of low concentration. A fair example of diffusion is a small amount of dye being added to a container of water. The dye would slowly spread or diffuse causing the colour of the water to change and the colour of the dye to be equally distributed among the water.
blue and red, but you need a bigger red ratio than blue
hot water particles are moving,so it moves what ever you add to it ..if you can see it such as a dye or coffee.cold water has less connetic enegry...we have all heard how heat from a flame rises...heat in water moves as well and makes it mix the color quicker...
If you mean if there's a way to dye water then there is. Have you noticed that lakes or pools on Spa resorts are bluer than usual? Well it's because they apply a WATER DYE solution to achieve that fresh and expensive aqua look. Don't worry because technology has found a way to make these water dye products safe for the environment and for skin contact.
Molecules in warm water are moving faster than those in the colder water.
The dye diffuses in the water.
If you boil it, the water will boil and the dye will not, leaving you with dye.