Indefinite, if the containers were tightly sealed.
The shelf life of a solution of copper sulfate, distilled water, and sulfuric acid can vary depending on storage conditions. Generally, if stored properly in a sealed container away from light and moisture, it can last for several months to a year. It is important to check for any changes in color, odor, or precipitation before using the solution.
Yes, when copper chloride reacts with sulfuric acid, it can produce a solution containing copper sulfate, which is a blue salt. This reaction is often used to prepare copper sulfate solutions for various applications.
When black copper oxide is added to sulfuric acid, a chemical reaction occurs to form copper sulfate. The solution will have a blue color due to the presence of copper ions.
To prepare copper sulfate, dissolve copper oxide or copper metal in sulfuric acid. Then, evaporate the solution until crystals of copper sulfate start to form. Finally, filter and dry the crystals to obtain pure copper sulfate.
Distilled water plus copper sulfate becomes a good conductor because copper ions from copper sulfate can dissociate in water to conduct electricity. However, distilled water alone is a poor conductor due to the lack of ions. Adding copper sulfate introduces ions, allowing the solution to conduct electricity effectively.
The solute in a copper sulfate solution is copper sulfate (CuSO4).
When black copper oxide is added to sulfuric acid, a chemical reaction occurs to form copper sulfate. The solution will have a blue color due to the presence of copper ions.
When dilute sulfuric acid reacts with copper(II) carbonate, blue copper(II) sulfate solution is produced.
Copper oxide reacts with sulfuric acid to produce copper sulfate and water. The balanced chemical equation for this reaction is: CuO + H2SO4 -> CuSO4 + H2O.
The pH of a copper sulfate solution depends on its concentration. Typically, a 1% solution of copper sulfate has a pH of around 3-4, making it acidic.
A primary amine can reduce copper ions in copper sulfate solution, leading to the formation of a colored copper complex. The color change usually involves a shift from blue to a range of colors, such as green or orange, depending on the specific amine and conditions.
Heating the saturated solution of Copper sulfate will not form the hydrated copper sulfate crystals because only after cooling down the saturated solution of copper sulfate then only the crystals of the hydrated copper sulfate can be formed
CuSO4 Synonyms: Copper (II) sulfate (1:1); copper monosulfate; sulfuric acid copper (2+) salt (1:1); blue copper; anhydrous copper sulfate
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 word equation for the reaction between sulfuric acid and copper nitrate is: sulfuric acid + copper nitrate -> copper sulfate + nitric acid.
Copper can be extracted from copper sulfate solution through a process known as electrolysis. This involves passing an electric current through the solution, causing the copper ions to gain electrons and deposit onto the negative electrode as solid copper. This is a common method used in industry to obtain pure copper from copper sulfate solutions.
Any thing ending in sulfate e.g. calcium sulfate, copper sulfate
You will have to assume that the 2 % is a volume fraction, then the volume of copper sulfate in the solution would be 11.5 milliliter(575 ml*(0.02). If it were a weight fraction, then you would have to have more information on the solution density.