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Due to the chemical composition of Chalk, you can separate it from water either by filtration of evaporation.
By evaporation or boiling off the water. Reversed osmosis is another one (advanced filtration technique)
because sugar and salt are soluble to water it cannot be seperated by filtration but can by evaporation. in filtration it cannot seperate becasue it has been broken down into tiny particles and it pass through the filter being used.
One of the easiest methods of separation is filtration. You can try this by pouring the mixture through ordinary filtration paper into a container, but this will only work if it is a suspension or colloid, it will not work with a solution. If it is a solution, try evaporation or distillation. Once all the solvent has evaporated you will see bluish green crystals of copper sulfate.
Filtration
Easy the solute would go first since its at the top in a solution need something else such as evaporation. Easy the solute would go first since its at the top in a solution need something else such as evaporation.
Due to the chemical composition of Chalk, you can separate it from water either by filtration of evaporation.
This sounds like a physical separation question where there is a solution in which a crystalline precipitate has formed. The two techniques to separate the precipitate from the solution are filtration and evaporation.
By evaporation or boiling off the water. Reversed osmosis is another one (advanced filtration technique)
because sugar and salt are soluble to water it cannot be seperated by filtration but can by evaporation. in filtration it cannot seperate becasue it has been broken down into tiny particles and it pass through the filter being used.
Current Edited Answer: Using the methods available to separate mixtures that are applicable to what solutions you want to separate. Example: Filtration, Evaporation, Distillation. Same as a mixture because a solution is a type of mixture.
Because some of the compounds of the solution can disappear in the air by evaporation.To avoid recrystallization in the funnel. And rapid crystallization will occur if there is maximum evaporation.
One of the easiest methods of separation is filtration. You can try this by pouring the mixture through ordinary filtration paper into a container, but this will only work if it is a suspension or colloid, it will not work with a solution. If it is a solution, try evaporation or distillation. Once all the solvent has evaporated you will see bluish green crystals of copper sulfate.
it's done to minimize the mixing of air into the filtered solution. By touching the stem to the collecting beaker, the solution flows into the beaker smoothly rather than splashing into it.
it's done to minimize the mixing of air into the filtered solution. By touching the stem to the collecting beaker, the solution flows into the beaker smoothly rather than splashing into it.
Filtration
Cupric oxide (black, CuO) is not soluble, so it is easily fitered off from the cupric sulfate solution (blue, CuSO4).