When sulfuric acid and copper (II) oxide react, copper (II) sulfate and water are produced. The balanced chemical equation for this reaction is: H2SO4 + CuO -> CuSO4 + H2O.
Copper sulfate is the salt formed when copper oxide and sulfuric acid react together.
water and copper(II)sulfate CuO + H2SO4 --> CuSO4 + H2O
Copper carbonate or copper hydroxide can be used as alternatives to copper oxide in preparing copper sulfate. These compounds can react with sulfuric acid to produce copper sulfate in a similar manner to copper oxide.
Copper sulfate is formed when copper oxide reacts with sulfuric acid.
A large lump of copper oxide has a smaller surface area exposed to the sulfuric acid compared to powdered copper oxide. This limits the contact between the copper oxide and the acid, leading to a slower reaction. Powdered copper oxide has a larger surface area, allowing for more efficient and faster reaction with the sulfuric acid.
Copper sulfate is the salt formed when copper oxide and sulfuric acid react together.
Copper oxide and sulfuric acid will react together to produce copper sulfate.
water and copper(II)sulfate CuO + H2SO4 --> CuSO4 + H2O
Copper carbonate or copper hydroxide can be used as alternatives to copper oxide in preparing copper sulfate. These compounds can react with sulfuric acid to produce copper sulfate in a similar manner to copper oxide.
Copper sulfate is formed when copper oxide reacts with sulfuric acid.
A large lump of copper oxide has a smaller surface area exposed to the sulfuric acid compared to powdered copper oxide. This limits the contact between the copper oxide and the acid, leading to a slower reaction. Powdered copper oxide has a larger surface area, allowing for more efficient and faster reaction with the sulfuric acid.
It can be either depending on the reaction. It can be a product of electrolysis of copper with sulfuric acid, or an acid base reaction of copper hydroxide and sulfuric acid. It can react with metals such as zinc.
Copper does not react with hot concentrated sulfuric acid due to its passivating oxide layer that prevents further reaction. The reaction between copper and sulfuric acid mainly occurs with dilute sulfuric acid, producing copper(II) sulfate and sulfur dioxide gas.
When excess copper oxide is added to dilute sulfuric acid, the excess copper oxide will react with the acid to form copper sulfate and water. The reaction will continue until all the copper oxide is used up. This is known as a limiting reactant situation, where one reactant is completely consumed before the other.
Yes, copper and iron oxide can react with each other. When heated, copper can displace iron from iron oxide in a redox reaction, forming copper oxide and leaving metallic iron behind.
It doesn't.
Yes, copper can react with oxygen to form copper oxide. This reaction typically results in a layer of black copper oxide forming on the surface of the copper.