The water in a dish with 12cm diameter since the area of exposure of water into atmosphere is greater. The more you expose the atoms in the atmosphere, the more they have space to escape the liquid state.
This depends on: temperature, pressure, geometry of the beaker, wind, thickness.
If you mean seperate: Use a bunsen burner, a tripod, and a beaker. Place the beaker onto the tripod which should be on top of the bunsen burner. Pour the salt/sand water into the beaker and turn the bunsen burner onto the safety flame. Then put the beaker on the tripod, and wait for the water to evaporate.
Put them in a beaker. Add water to the mixture. Agitate to insure dissolution. Centrifuge the colloidal suspension. Pour off the water into a different beaker and heat to 100C. Salt will be in the beaker where water was after complete evaporation. Sand will be in the other after drying. Sand doesn't dissolve in water. Salts do.
can clay evaporate in water
when the hot water in the beaker touches the cool surface of the beaker,the water condenses into water droplets.
The 12 cm beaker. (it has more exposure to the atmosphere)
Water evaporate quickly.
well the water in the syringe will evaporate and you will see condensation at the top of the syringe.
The warmer water is, the more quickly it evaporates.
Water evaporate faster.
Pure water is evaporated faster.
it is because the water gets quickly evaporate
If you left water in an open container for several days in summer, the water would eventually evaporate and there would be less water than you put before but if you put in in winter, the water would eventually freeze.
This depends on: temperature, pressure, geometry of the beaker, wind, thickness.
The dye and other additives remain as a residue.
Because the opening is large so more water is heated.
Temperature will make water evaporate more quickly than wind. Wind will just separate the water molecules, which would then cause them to evaporate a little more quickly.