Calcium phosphate - Ca3(PO4)2
The salt produced when mixing nitric acid with calcium hydroxide is calcium nitrate. This reaction also results in the formation of water.
Mixing sodium hydroxide and calcium nitrate will not form a precipitate. Instead, it will form solutions of sodium nitrate and calcium hydroxide.
Magnesium nitrate (salt) and water are produced.
Calcium hydroxide and ammonium sulfate should not be mixed together because they can react to form calcium sulfate, ammonia, and water. This reaction can release ammonia gas, which is harmful if inhaled, and can cause irritation. It's important to follow proper chemical safety protocols and avoid mixing these substances together.
Potassium chloride can be neutralized by mixing it with a base, such as sodium hydroxide, calcium hydroxide, or magnesium hydroxide. The reaction will produce water, salt, and a neutral pH solution. It is important to handle these chemicals carefully and follow proper safety protocols.
The salt produced when mixing nitric acid with calcium hydroxide is calcium nitrate. This reaction also results in the formation of water.
No, potassium hydroxide cannot be made by mixing potassium sulfate and calcium hydroxide. Potassium hydroxide is typically produced through the electrolysis of potassium chloride. Mixing potassium sulfate and calcium hydroxide would not result in the formation of potassium hydroxide.
Mixing sodium hydroxide and calcium nitrate will not form a precipitate. Instead, it will form solutions of sodium nitrate and calcium hydroxide.
Mixing hydrochloric acid with sodium hydroxide to form salt and water. Combining sulfuric acid with calcium hydroxide to produce calcium sulfate and water. Reacting nitric acid with potassium hydroxide to yield potassium nitrate and water. Mixing acetic acid with ammonia to form ammonium acetate and water. Combining phosphoric acid with barium hydroxide to produce barium phosphate and water. Reacting citric acid with sodium bicarbonate to yield sodium citrate and water. Mixing hydrofluoric acid with sodium carbonate to form sodium fluoride and water. Combining carbonic acid with potassium hydroxide to produce potassium carbonate and water. Reacting oxalic acid with calcium hydroxide to yield calcium oxalate and water. Mixing hydrobromic acid with magnesium hydroxide to form magnesium bromide and water.
Hydrogen gas is produced.
By mixing hydroxide and sulfuric acid
Magnesium nitrate (salt) and water are produced.
Dicalcium phosphate is typically produced by reacting calcium carbonate with phosphoric acid. The reaction results in a precipitate of dicalcium phosphate, which can then be dried and milled into a fine powder. This compound is commonly used as a dietary supplement and food additive.
Quicklime is calcium oxide - CaO and slaked lime is calcium hydroxide - Ca(OH)2. CaCO3--------------CaO + CO2 This reaction occur at high temperature; mixing calcium oxide with water, the hydroxide is obtained.
Calcium hydroxide and ammonium sulfate should not be mixed together because they can react to form calcium sulfate, ammonia, and water. This reaction can release ammonia gas, which is harmful if inhaled, and can cause irritation. It's important to follow proper chemical safety protocols and avoid mixing these substances together.
Potassium chloride can be neutralized by mixing it with a base, such as sodium hydroxide, calcium hydroxide, or magnesium hydroxide. The reaction will produce water, salt, and a neutral pH solution. It is important to handle these chemicals carefully and follow proper safety protocols.
Mixing ammonium hydroxide and potassium hydroxide can produce ammonia gas, which is highly toxic. It is not recommended due to the potential health hazards associated with exposure to ammonia gas. It is important to handle these chemicals with caution and avoid mixing them together.