Aluminum hydroxide is a base, while nitric acid is a acid (obviously). Therefore, they would cause a neutralization reaction, which form water and a salt. The equation would look like this:
Al(OH)3 + 3HNO3 -> 3H2O + Al(NO3)3
When aluminum metal reacts with nitric acid, it produces aluminum nitrate, nitrogen dioxide gas, and water. This reaction is exothermic and can be violent if concentrated nitric acid is used.
To determine the number of moles of calcium hydroxide needed to react with the nitric acid, you would need to know the concentration of the nitric acid. With the concentration, you can use the balanced chemical equation of the reaction to calculate the moles of calcium hydroxide required.
potassium hydroxide is POH and nitric acid is HNO3
Yes, sodium hydroxide can react with copper to form copper(II) hydroxide. When sodium hydroxide is added to a solution containing copper ions, a blue precipitate of copper(II) hydroxide is formed.
Lithium nitrate is formed when lithium hydroxide reacts with nitric acid. The balanced chemical equation for this reaction is: 2LiOH + HNO3 → LiNO3 + 2H2O.
When aluminum metal reacts with nitric acid, it produces aluminum nitrate, nitrogen dioxide gas, and water. This reaction is exothermic and can be violent if concentrated nitric acid is used.
To determine the number of moles of calcium hydroxide needed to react with the nitric acid, you would need to know the concentration of the nitric acid. With the concentration, you can use the balanced chemical equation of the reaction to calculate the moles of calcium hydroxide required.
potassium hydroxide is POH and nitric acid is HNO3
Yes, sodium hydroxide can react with copper to form copper(II) hydroxide. When sodium hydroxide is added to a solution containing copper ions, a blue precipitate of copper(II) hydroxide is formed.
Lithium nitrate is formed when lithium hydroxide reacts with nitric acid. The balanced chemical equation for this reaction is: 2LiOH + HNO3 → LiNO3 + 2H2O.
It is not recommended to store concentrated nitric acid in an aluminum vessel as nitric acid can react with aluminum, forming aluminum nitrate and liberating hydrogen gas, which can be hazardous. It is best to store nitric acid in containers made of compatible materials, such as glass or certain types of plastics.
2Al(OH)3 + 3H2SO4 -> Al2(SO4)3 + 6H2O Looks like aluminum hydroxide and sulfuric acid will form the salt aluminum sulfate and water.
Gold and platinum will no react with HNO3 due to their low reactivity. Aluminum also will not react with HNO3 despite its relatively high reactivity because it has a protective layer of aluminum oxide on it.
Carbonic acid and aluminum hydroxide react to form aluminum carbonate and water. This chemical reaction can be represented by the equation: H2CO3 + 2Al(OH)3 -> Al2(CO3)3 + 3H2O.
The products will be sodium nitrate and water.Chemical equation: NaOH + HNO3 = NaNO3 + H2O
Plutonium easily react with nitric acid.
Aluminium is passive towards Nitric acid because Nitric acid forms a protective thin film on surface of Aluminium which protects from further reaction.