No it does not.
Carbonate and acid react and produce, carbon dioxide and water as products.
Barium carbonate will react with nitric acid, producing barium nitrate, carbon dioxide, and water.
When sodium carbonate and hydrochloric acid react, sodium chloride (table salt) is formed along with carbon dioxide and water.
Beryllium would react with sodium carbonate to form beryllium carbonate and sodium oxide. This is a double displacement reaction in which the ions from each compound swap places to form the new compounds. Beryllium carbonate is insoluble in water and would precipitate out of solution.
Bases react with carbonate ions to form bicarbonate ions through a neutralization reaction. This reaction produces water and carbon dioxide gas as byproducts. The bicarbonate ion is the result of the carbonate ion accepting a proton from the base.
No it does not.
Carbonate and acid react and produce, carbon dioxide and water as products.
Barium carbonate will react with nitric acid, producing barium nitrate, carbon dioxide, and water.
Calcium carbonate and sodium chloride doesn't react.
When sodium carbonate and hydrochloric acid react, sodium chloride (table salt) is formed along with carbon dioxide and water.
Beryllium would react with sodium carbonate to form beryllium carbonate and sodium oxide. This is a double displacement reaction in which the ions from each compound swap places to form the new compounds. Beryllium carbonate is insoluble in water and would precipitate out of solution.
Bases react with carbonate ions to form bicarbonate ions through a neutralization reaction. This reaction produces water and carbon dioxide gas as byproducts. The bicarbonate ion is the result of the carbonate ion accepting a proton from the base.
Yes, beryllium carbonate will react with hydrochloric acid (HCl) to produce beryllium chloride, carbon dioxide, and water. This reaction is a typical acid-base reaction where the carbonate ion acts as a base and the hydrogen ion from the acid reacts to form water.
Compound X is likely an insoluble base, such as calcium carbonate or dolomite, that is used as a soil amendment to neutralize acidic soils. These compounds do not dissolve in water and do not react with water, making them effective for controlling soil acidity.
After this reaction a salt, carbon dioxide and water are formed.
Sodium carbonate doesn't react with water; it is only dissolved and dissociated.
zinc carbonate + sulphuric acid = zinc sulphate + water + carbon dioxide