Calcium nitrate can react with sodium carbonate to produce calcium carbonate, sodium nitrate, and carbon dioxide. It can also react with sulfuric acid to form calcium sulfate and nitric acid. Additionally, it can react with ammonium sulfate to yield calcium sulfate and ammonium nitrate.
Yes, when lithium carbonate (Li2CO3) reacts with silver nitrate (AgNO3) to form silver carbonate (Ag2CO3) and lithium nitrate (LiNO3), a white precipitate of silver carbonate will form due to the low solubility of silver carbonate in water.
No, saltpetre (potassium nitrate) is not a carbonate. It is a compound made up of potassium, nitrogen, and oxygen. Carbonates refer to compounds that contain the carbonate ion (CO3^2-), such as calcium carbonate (CaCO3).
Li3N would be lithium nitride. LiNO3 would be lithium nitrate. LiN3 does not exist.
Strontium and lithium are two elements whose compounds burn with a red flame and are commonly used in fireworks and signal flares. The strontium compound strontium nitrate and the lithium compound lithium carbonate are examples of substances that contribute to the red color in pyrotechnics.
Assuming that questioner intended to complete the question with "carbonate, or nitrate" instead of the nonexistent "carbonatenitrate": Carbonate and nitrate ions are both polyatomic; lithium and calcium ions are both monatomic.
Calcium nitrate can react with sodium carbonate to produce calcium carbonate, sodium nitrate, and carbon dioxide. It can also react with sulfuric acid to form calcium sulfate and nitric acid. Additionally, it can react with ammonium sulfate to yield calcium sulfate and ammonium nitrate.
Yes, when lithium carbonate (Li2CO3) reacts with silver nitrate (AgNO3) to form silver carbonate (Ag2CO3) and lithium nitrate (LiNO3), a white precipitate of silver carbonate will form due to the low solubility of silver carbonate in water.
Well, isn't that a happy little question! Strontium nitrate and calcium carbonate are both slightly soluble salts, meaning they can dissolve in water to a limited extent. It's important to remember that solubility can depend on various factors like temperature and concentration, so it's always good to experiment and observe with a curious mind. Just like painting, chemistry is all about exploring and discovering the beauty of the world around us!
When aqueous calcium nitrate is added to aqueous lithium sulfate, a double displacement reaction occurs. The calcium and lithium ions switch places to form calcium sulfate and lithium nitrate. This reaction results in the formation of two new compounds: CaSO4 and LiNO3.
The precipitate produced would be calcium carbonate. This is because when calcium nitrate and sodium carbonate react, they form calcium carbonate as an insoluble solid that precipitates out of the solution.
The salt formed by nitric acid and calcium carbonate is calcium nitrate. It is created when nitric acid reacts with calcium carbonate, which is a common chemical reaction used in various industries.
When calcium carbonate reacts with nitric acid, it produces carbon dioxide gas, along with calcium nitrate and water.
Potassium nitrate is soluble in water, while calcium carbonate is not. You can dissolve the mixture in water, filter out the calcium carbonate, and then evaporate the water to obtain potassium nitrate crystals.
The word equation for the reaction between nitric acid and calcium carbonate is: nitric acid + calcium carbonate → calcium nitrate + carbon dioxide + water.
Calcium nitrate is typically created by combining nitric acid with calcium carbonate or calcium hydroxide. This reaction results in the formation of calcium nitrate, water, and carbon dioxide.
One way to distinguish between zinc nitrate and calcium nitrate is through a flame test. When heated in a flame, zinc nitrate emits a green color, while calcium nitrate emits a red color. Additionally, chemical tests such as adding a carbonate compound can help differentiate them. Zinc nitrate forms a white precipitate with sodium carbonate, while calcium nitrate forms a white precipitate that dissolves in excess carbonate.