Carbonates are broken down primarily through a process called weathering, which can be chemical or physical. In chemical weathering, carbonates react with acids, such as carbonic acid formed from carbon dioxide and water, leading to dissolution. Physical weathering, on the other hand, involves the mechanical breakdown of carbonate rocks through processes like freeze-thaw cycles or abrasion. Both processes contribute to the release of carbon dioxide and minerals into the environment.
Carbonates of metals typically exhibit thermal stability, breaking down upon heating to release carbon dioxide and form metal oxides. They are often ionic compounds, with metal cations bonded to carbonate anions (CO3²⁻). Solubility varies widely among different metal carbonates; for instance, alkali metal carbonates are generally soluble in water, while many transition metal carbonates are insoluble. Additionally, metal carbonates can react with acids to produce carbon dioxide gas, water, and corresponding metal salts.
An element is the only substance that cannot be broken down.
Proteins are broken down by proteases, bilirubin is broken down by the liver, and iron is broken down by macrophages in the liver and spleen.
Genus' are broken down in species.
Granularity is the extent to which is system is broken down into smaller parts. It can be either the system itself or its description. For example it can be a yard broken down into inches or a yard broken down into feet. The yard broken down into inches has finer granularity then the yard broken down into feet.
They are called this because carbonates and bicarbonates are bases, and will except a hydrogen ion. This will result in the formation of carbonic acid (H2CO3) which spontaneously breaks down into water and carbon dioxide.
Yes, flint does react with acid. When in contact with acid, flint will fizz and bubble as a result of the chemical reaction taking place. This reaction is due to the carbonates present in the flint being broken down by the acid.
it is broken down into monomers
Carbonates of metals typically exhibit thermal stability, breaking down upon heating to release carbon dioxide and form metal oxides. They are often ionic compounds, with metal cations bonded to carbonate anions (CO3²⁻). Solubility varies widely among different metal carbonates; for instance, alkali metal carbonates are generally soluble in water, while many transition metal carbonates are insoluble. Additionally, metal carbonates can react with acids to produce carbon dioxide gas, water, and corresponding metal salts.
Yes, elements can be broken down.
They can be broken down in your blood stream or your liver.
Proteins are broken down into amino acids, carbohydrates are broken down into sugars and fats are broken down into fatty acids and glycerol.
An element is the only substance that cannot be broken down.
Carbonates react with hydrochloric acid.
Proteins are broken down by proteases, bilirubin is broken down by the liver, and iron is broken down by macrophages in the liver and spleen.
As carbonates are mildly basic, anything acid will react with them (releasing carbon dioxide gas).
The acid that makes carbonates is carbonic acid.