Take a cupful of water in a beaker and add few drops of dilute sulphuric acid. Heat water. When it starts boiling add copper sulphate powder slowly while stirring continuously. Continue adding copper sulphate powder till no more powder can be dissolved. Filter the solution. Allow it to cool. Do not disturb the solution after some time. We can see the crystals of copper sulphate. If we do not see any crystals, wait for some more time. Your copper sulphate crystal is ready.
By: darani.a
When iron sulfate and sodium carbonate are mixed, iron carbonate and sodium sulfate are produced. Iron carbonate is a solid precipitate that can be formed during the reaction, while sodium sulfate remains in solution.
When adding milennium to a copper sulfate solution, a pink solid may form if the milennium is a reducing agent that can reduce the copper ions in the solution to copper (I) oxide, which is pink in color. This reaction is indicative of the reduction of copper (II) sulfate to copper (I) oxide.
Copper Sulphate is a powder at room temperature, therefore it is a solid.
A white precipitate of barium sulphate is formed when sodium sulphate solution is added to barium chloride solution. This is due to the formation of an insoluble salt, barium sulphate, which appears as a white solid in 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.
This solution is a liquid.
The precipitate formed when copper sulfate and sodium carbonate are mixed is copper carbonate. This reaction occurs because copper carbonate is insoluble in water and therefore forms a solid precipitate.
When solid copper sulfate is mixed with water, it dissolves to form a blue-colored solution. This solution is a solution of copper sulfate in water.
The chemical equation for this reaction is: Fe(s) + CuSO4(aq) -> FeSO4(aq) + Cu(s).Iron displaces copper from copper sulphate solution to form iron sulphate and solid copper precipitates out of the solution. This is an example of a single displacement reaction.
When hydrogen sulfide and copper sulfate are mixed together, they react to form solid copper sulfide and sulfuric acid. This reaction can be represented by the equation: H2S + CuSO4 → CuS + H2SO4.
Aqueous copper sulfate solution contains free ions (Cu2+ and SO4 2-) that can carry electrical charge and allow the solution to conduct electricity. In contrast, solid copper sulfate does not contain free ions and is unable to conduct electricity because the ions are locked in a fixed position within the solid lattice.
When iron sulfate and sodium carbonate are mixed, iron carbonate and sodium sulfate are produced. Iron carbonate is a solid precipitate that can be formed during the reaction, while sodium sulfate remains in solution.
The pink brown solid formed from the reaction of zinc with copper sulfate is copper metal. During the reaction, zinc replaces copper in the copper sulfate solution, leading to the formation of solid copper.
When adding milennium to a copper sulfate solution, a pink solid may form if the milennium is a reducing agent that can reduce the copper ions in the solution to copper (I) oxide, which is pink in color. This reaction is indicative of the reduction of copper (II) sulfate to copper (I) oxide.
Copper Sulphate is a blue crystalline solid.
it is because iron is solid and can easily sublimes in aqueous copper sulphate
Copper Sulphate is a powder at room temperature, therefore it is a solid.