with a single displacement reaction
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.
When copper sulfate and sodium carbonate are mixed together, a chemical reaction occurs. This reaction forms copper carbonate, a new substance with different properties than the reactants. Therefore, the mixing of copper sulfate and sodium carbonate is a chemical change.
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.
No, mixing sodium carbonate and copper sulfate is a physical change as the substances retain their chemical identities. A chemical change would involve a reaction where new substances are formed.
You can separate copper sulfate and sulfur by heating the mixture. Sulfur has a lower melting point than copper sulfate, so it will melt and can be separated by filtering while copper sulfate remains solid.
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.
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.
Copper(II) carbonate is insoluble in water and doesn't react with sodium sulfate. A green product, visible on ald objects made from copper or copper alloys, is a mixture of copper carbonate and copper hydroxide.
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.
One way to separate copper carbonate and iron sulfate is by using a combination of methods such as precipitation, filtration and distillation. First, dissolve the mixture in water to separate the two compounds. Then, add a reagent that will cause one of the compounds to precipitate out while the other remains in solution. Finally, use filtration to separate the precipitate from the remaining solution.
You can separate sand and copper carbonate by using a process called filtration. First, mix the sand and copper carbonate in water to form a mixture. Then, pour the mixture through a filter paper in a funnel. The sand will be trapped on the filter paper while the copper carbonate will pass through as a liquid.
When copper sulfate and sodium carbonate are mixed together, a chemical reaction occurs. This reaction forms copper carbonate, a new substance with different properties than the reactants. Therefore, the mixing of copper sulfate and sodium carbonate is a chemical change.
Use a magnet to remove the iron filings from the mixture, then mix the remaining components with water. The copper sulfate will dissolve but the CaCO3 (chalk powder) will not. Filter the mixture to remove the chalk, then boil the water to recover the copper sulfate.
Get a funnel and a beaker and something to hold the funnel over the beaker. Put a paper which is fitted to the funnel so the sand cant get through, you pour the mixture of sand and copper sulfate into the funnel. So the sand stays on top of the paper and the liquids travel through the paper into the beaker.
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.
Copper sulfate, slaked lime and water are what is in bordeaux mixture.Specifically, the copper sulfate and the slaked lime each are dissolved in separate containers of water. The contents then will be combined in one container. The weight of the copper sulfate to the volume of water will determine the mixture's concentration.
No, a copper sulfate solution is a homogeneous mixture where copper sulfate is dissolved in water.