yes, copper kettles conduct heat faster.They use less energy then other types of kettles.
As copper is heated, its resistance increases. This is due to the increase in collisions between free electrons and copper ions, hindering the flow of electric current through the material.
When copper and zinc are heated together, they can bond and form an alloy called brass. Brass is a strong and durable material that is commonly used in applications where both metals' properties are desired.
When copper is heated in oxygen, the compound formed is copper oxide.
When copper carbonate is heated, it changes from its green color to black copper oxide.
When copper sulfate is heated, it decomposes to form copper oxide and sulfur dioxide gas.
When copper carbonate is heated, it decomposes into copper oxide, releasing carbon dioxide gas. The remaining ionic compound is copper oxide (CuO).
Yes, copper expands when heated.
A kettle does not have a magnetic force on its own. However, since it is metal, it can attract a magnet.
When copper sulfide is heated in the air, it is oxidized to form copper oxide (CuO) and sulfur dioxide (SO2) gas.
Absolutely
Copper sulfate is formed.
The black stuff that forms on copper when heated is called copper oxide. It forms as a result of the copper reacting with oxygen in the air during the heating process.