Yes, this reaction is possble.
Copper oxide acts as an oxidizing agent in the test for carbon and hydrogen. It can react with the carbon and hydrogen in the organic compound to form carbon dioxide and water, respectively. By observing the change in color of the copper oxide, we can determine the presence of carbon and hydrogen in the compound.
It doesn't.
It forms copper oxide
Yes, a reaction will occur when copper is heated with iron oxide. The iron in iron oxide will react with the copper to form copper oxide and iron.
Yes, it rapidly forms a layer of blue green copper oxide on the copper surface.
Heating copper oxide with carbon (in the form of coal or charcoal) causes a reduction reaction, where carbon removes oxygen from copper oxide to produce carbon dioxide and leave behind pure copper. This process is known as a reduction reaction, where carbon acts as a reducing agent to extract copper from its oxide form.
I think you mean how do you extract copper from copper oxide, if so here's your answer. Take your copper oxide and heat it with something that is more reactive than copper. Carbon is a good example. The more reactive carbon will oxidise, taking the oxygen from the copper oxide leaving copper. copper oxide + carbon --> copper + carbon dioxide 2Cu0 + C --> 2Cu + CO2
Copper doesn't react with carbon dioxide at room temperature.
Yes, copper is more reactive than carbon. Copper can react with acids to form copper salts and with oxygen in the air to form copper oxide, while carbon is relatively unreactive and does not readily react with acids or oxygen at room temperature.
Copper oxide acts as an oxidizing agent in the test for carbon and hydrogen. It can react with the carbon and hydrogen in the organic compound to form carbon dioxide and water, respectively. By observing the change in color of the copper oxide, we can determine the presence of carbon and hydrogen in the compound.
Carbon can be used to react with copper oxide to form carbon dioxide and copper metal. This reaction involves heating a mixture of copper oxide and carbon in a reduction reaction, where carbon acts as a reducing agent to obtain copper metal.
It doesn't.
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.
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.
Copper sulfate is the salt formed when copper oxide and sulfuric acid react together.
oxygen
It forms copper oxide