When copper sulfate (blue) and sodium carbonate (colorless) are mixed, a chemical reaction occurs that forms copper carbonate as a product, which is green in color. The green color comes from the copper carbonate that is insoluble in water and precipitates out when the two solutions are mixed.
If you add copper carbonate to sulphuric acid, you will form copper(II) sulfate, which is a salt that is commonly used in agricultural and chemical processes. This reaction also releases carbon dioxide gas as a byproduct.
When malachite (copper carbonate) is dissolved in sulfuric acid, a chemical reaction takes place where the copper carbonate reacts with the acid to form copper sulfate, carbon dioxide gas, and water. This reaction results in the dissolution of the malachite and the formation of copper sulfate solution.
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.
When you mix calcium and copper sulfate, a chemical reaction occurs. The calcium will replace the copper in the copper sulfate, forming calcium sulfate and copper metal. This reaction is a displacement reaction.
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.
Mixing copper sulfate and sodium carbonate would be considered a chemical reaction because a new substance is formed as a result of the reaction between the two compounds, resulting in the formation of copper carbonate and sodium sulfate.
Yea
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.
When copper sulfate (blue) and sodium carbonate (colorless) are mixed, a chemical reaction occurs that forms copper carbonate as a product, which is green in color. The green color comes from the copper carbonate that is insoluble in water and precipitates out when the two solutions are mixed.
If you add copper carbonate to sulphuric acid, you will form copper(II) sulfate, which is a salt that is commonly used in agricultural and chemical processes. This reaction also releases carbon dioxide gas as a byproduct.
When malachite (copper carbonate) is dissolved in sulfuric acid, a chemical reaction takes place where the copper carbonate reacts with the acid to form copper sulfate, carbon dioxide gas, and water. This reaction results in the dissolution of the malachite and the formation of copper sulfate solution.
One way to separate copper carbonate and iron sulfate is by adding water to the mixture and stirring to dissolve the copper carbonate. This will leave the iron sulfate as a solid at the bottom of the container. The liquid containing the dissolved copper carbonate can then be decanted, leaving the iron sulfate behind.
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.
When you mix calcium and copper sulfate, a chemical reaction occurs. The calcium will replace the copper in the copper sulfate, forming calcium sulfate and copper metal. This reaction is a displacement reaction.
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.
The balanced chemical equation for the reaction between an iron nail (Fe) and copper sulfate (CuSO4) is: Fe + CuSO4 -> FeSO4 + Cu This reaction involves a single displacement reaction where iron displaces copper from copper sulfate to form iron(II) sulfate and copper metal.