Carbonates of active metals.
When carbonates react with acids, they produce carbon dioxide gas, water, and a salt.
Acids produce carbon dioxide gas when they react with carbonates. This is due to the acid breaking down the carbonate to form carbon dioxide, water, and a salt.
Carbon dioxide is produced when acids react with carbonates. This chemical reaction results in the formation of water, a salt, and carbon dioxide gas.
Yes, carbon can react with acids to form carbon dioxide gas and water.
Yes, calcite (calcium carbonate) reacts with dilute acids to evolve carbon dioxide. However, halite (sodium chloride) does not react with dilute acids to evolve carbon dioxide.
When carbonates react with acids, they produce carbon dioxide gas, water, and a salt.
Acids produce carbon dioxide gas when they react with carbonates. This is due to the acid breaking down the carbonate to form carbon dioxide, water, and a salt.
no
indeed it does my friend
Carbon dioxide is produced when acids react with carbonates. This chemical reaction results in the formation of water, a salt, and carbon dioxide gas.
Yes, carbon can react with acids to form carbon dioxide gas and water.
Yes, calcite (calcium carbonate) reacts with dilute acids to evolve carbon dioxide. However, halite (sodium chloride) does not react with dilute acids to evolve carbon dioxide.
Bases can react with acids to form salts and water. Metals can also react with acids to produce hydrogen gas and a salt. Additionally, carbonates and bicarbonates can react with acids to form carbon dioxide gas, water, and a salt.
No, helium does not produce carbon dioxide. Helium is an inert gas and does not react chemically with other substances to produce carbon dioxide. Carbon dioxide is produced from the combustion of carbon-containing compounds.
As carbonates are mildly basic, anything acid will react with them (releasing carbon dioxide gas).
carbon dioxide is released carbonates react with acids
Yes, calcite (calcium carbonate) will react with dilute acids to evolve carbon dioxide gas. However, halite (sodium chloride) will not react with dilute acids to evolve carbon dioxide, as it is a stable compound that does not participate in acid-base reactions.