you can put cheese in it and then drink it
Copper sulfate is not black. Combined with water, as hydrated copper sulfate, it is blue. Without water, as anhydrous copper sulfate, it is white.
Yes, copper sulfate is an electrolyte. When dissolved in water, copper sulfate dissociates into copper ions and sulfate ions, which are capable of carrying an electric current.
To change blue copper sulfate to white copper sulfate, you can heat the blue copper sulfate to drive off the water molecules and get anhydrous white copper sulfate. This process is known as dehydration. Be cautious when heating copper sulfate as it can release toxic fumes.
Copper sulfate would crystalize as blue crystals, water would evaporate. To get the copper sulfate itself to evaporate you would need to heat it, melting the dry crystals then vaporizing them.
The water solution of copper sulfate is acidic.
One way to separate copper II sulfate from water is through evaporation. You can heat the solution of copper II sulfate and water until the water evaporates, leaving behind the copper II sulfate as a solid residue. Another method is to use filtration, where you can pass the solution through a filter to separate the solid copper II sulfate from the liquid water.
By heating water is evaporated.
To obtain copper sulfate crystals from a mixture with sand, you can dissolve the mixture in water. The copper sulfate will dissolve, while the sand will not. You can then filter the solution to separate the sand from the copper sulfate solution. By evaporating the water from the copper sulfate solution, you can obtain copper sulfate crystals.
You can separate water from aqueous copper sulfate by a process called evaporation. Heat the solution to boil off the water, leaving behind solid copper sulfate. The water vapor can be condensed and collected separately.
To separate chalk from a mixture of chalk and copper sulfate solution, you can add water to dissolve the copper sulfate, leaving behind the chalk. The water-soluble copper sulfate will form a blue solution, allowing you to filter out the chalk residue, which is insoluble in water.
You can separate water from aqueous copper(II) sulfate through a process called evaporation. Heat the solution to allow the water to evaporate, leaving behind the solid copper(II) sulfate. This is an effective way to isolate the two components.
To separate a mixture of copper sulfate and sand, you can use the method of filtration. First, dissolve the copper sulfate in water to form a solution. Then, pour the solution through a filter paper to separate the sand from the copper sulfate solution. The sand will be left behind on the filter paper while the copper sulfate solution passes through.
You can separate powdered copper sulfate and powdered copper in a solution through filtration. Copper sulfate is water-soluble and will dissolve in water, while copper metal will not dissolve and can be collected by filtering the solution. Copper can also be separated from copper sulfate by electrolysis, where an electric current is passed through the solution.
To separate copper sulfate from calcium carbonate, you can dissolve the mixture in water. Copper sulfate is soluble in water, while calcium carbonate is not. This solubility difference allows you to filter out the solid calcium carbonate and then evaporate the water to obtain copper sulfate crystals.
One common method is to use evaporation. The solution is heated, causing the water to evaporate and leave behind the solid copper sulfate. Another method is crystallization, where the solution is cooled slowly to allow copper sulfate crystals to form and separate from the solution.
Filtration can be used to separate copper sulfate from sulfur because copper sulfate is soluble in water, while sulfur is not. By adding water to the mixture and then filtering, the insoluble sulfur will remain on the filter paper, while the soluble copper sulfate will pass through as part of the filtrate.
You can separate water from a copper(II) sulfate solution through a process called distillation. This involves heating the solution until the water evaporates, leaving behind the copper(II) sulfate as a solid residue. The water vapor is then condensed back into liquid form.