Assuming by "normal conditions" you mean room temperature at sea level, pure calcium would be in a solid state.
calcium because there is calcium carbonate but not carbon calciumate
When calcium and oxygen combine, they form calcium oxide. This compound exhibits different properties compared to its individual elements. For example, calcium oxide is a solid at room temperature, whereas calcium and oxygen are gases under normal conditions. Additionally, calcium oxide has different chemical and physical characteristics than calcium and oxygen on their own.
Calcium oxide (CaO) is a solid at room temperature and is commonly known as quicklime. It has a high melting point of 2,572 degrees Celsius, indicating that it is in a solid phase under normal conditions.
Calcium is a solid at room temperature. It has a melting point of 842°C (1548°F) and a boiling point of 1484°C (2703°F), so it remains in a solid state under typical room temperature conditions.
no, it wouldn't calcium is above magnesium in the reactivity series which means that magnesium can't oxidize calcium. calcium can oxidize magnesium so calcium would react with magnesium nitrate with formation of metallic magnesium and calciumnitrate.
Calcium is solid at room temperature, so it is already "frozen" under normal conditions. In its pure form calcium is a silvery-gray metal.
Under normal conditions it is a solid.
calcium because there is calcium carbonate but not carbon calciumate
Calcium carbonate (CaCO₃) does not exist in a liquid or gaseous state under normal conditions because it is a solid at room temperature and pressure. Its stability as a solid is due to its strong ionic and covalent bonds in the crystalline structure. When heated, it decomposes into calcium oxide and carbon dioxide rather than melting into a liquid. Thus, its properties and chemical behavior prevent it from existing as a liquid or gas at ambient conditions.
Calcium nitrate does not react with manganese. Calcium nitrate is a salt composed of calcium and nitrate ions, while manganese is a transition metal. They do not typically react with each other under normal conditions.
There is no direct chemical reaction between calcium carbonate and hydrogen peroxide. Calcium carbonate is a stable compound and does not readily react with hydrogen peroxide under normal conditions.
No, they will not react when put together. This is because both calcium and copper are electropositive metals. No two electropositive elements or electronegative elements react under normal conditions.
Calcium carbonate (CaCO₃) does not exist in a liquid or gaseous state under normal conditions due to its thermal stability and strong ionic bonds. When heated, it decomposes into calcium oxide (CaO) and carbon dioxide (CO₂) before reaching a liquid state. Additionally, the solid structure of calcium carbonate is stable at room temperature and pressure, making it unlikely to exist in a liquid or gas form. As a result, CaCO₃ primarily exists in solid form, such as in limestone or marble.
Under normal conditions, chlorine is a gas. It occurs naturally as Cl2, and it has a yellowish color to it.
In general, calcium does not react with arsenic under normal conditions. However, in specific situations where high temperatures and pressures are present, or in the presence of certain catalysts, a reaction between calcium and arsenic may occur to form calcium arsenide.
Argon is a noble gas that remains in the gaseous state at room temperature and pressure. It does not change state easily under normal conditions.
When calcium and oxygen combine, they form calcium oxide. This compound exhibits different properties compared to its individual elements. For example, calcium oxide is a solid at room temperature, whereas calcium and oxygen are gases under normal conditions. Additionally, calcium oxide has different chemical and physical characteristics than calcium and oxygen on their own.