It turns into a blue chemical and it foams.
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.
The salt formed when you mix aluminum oxide and nitric acid is aluminum nitrate. Aluminum oxide reacts with nitric acid to form aluminum nitrate and water.
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.
Aluminium reacts with dilute nitric acid to give aluminium nitrate and hydrogen gas. aluminium + nitric acid -> aluminium nitrate + hydrogen 2Al(s) + 6HNO3 (aq) -> 2Al(NO3)3 (aq) + 3H2(g)
When nitric acid reacts with methyl orange, the color of the solution changes. Methyl orange is an indicator that changes color from orange/yellow in acidic solutions to red in basic solutions. In the presence of nitric acid, which is a strong acid, the solution would turn red.
this produces carbon dioxide
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.
The salt formed when you mix aluminum oxide and nitric acid is aluminum nitrate. Aluminum oxide reacts with nitric acid to form aluminum nitrate and water.
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.
Aluminium reacts with dilute nitric acid to give aluminium nitrate and hydrogen gas. aluminium + nitric acid -> aluminium nitrate + hydrogen 2Al(s) + 6HNO3 (aq) -> 2Al(NO3)3 (aq) + 3H2(g)
When nitric acid reacts with methyl orange, the color of the solution changes. Methyl orange is an indicator that changes color from orange/yellow in acidic solutions to red in basic solutions. In the presence of nitric acid, which is a strong acid, the solution would turn red.
Nitric acid is a strong reducing agent , aluminum forms a thick layer of oxide on it while reacting with air and further nitric acid cannot oxidise Al oxide ans so nitric acid can be stored safely in it.
nitric acid is light sensitve , it decomposes when expose in light. when aluminium is added to the conc HNO3 it remain passive in conc nitric acid,...... and moreover aluminium oxide layer is also form due to which it remain passive in conc nitric acid...
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 lead oxide is mixed with nitric acid, it will undergo a reaction to form lead nitrate and water. This reaction is a type of acid-base reaction where the oxide reacts with the acid to form the salt (nitrate) and water as a byproduct.
Nitric acid is very corrosive and a very strong acid. You can mix in water but remember add acid to the water and not water to the acid. When mixed with concentrated sulfuric acid it forms an excellent nitrating mixture for organic compounds. When doing a chloride titration with Silver Nitrate, Nitric acid is used to acidify and help the titration. There are many other uses also which involve mixing chemicals with nitric acid.
When aluminum and hydrochloric acid are mixed, a chemical reaction occurs where aluminum chloride and hydrogen gas are produced. The reaction is exothermic, meaning it releases heat, and can be quite vigorous depending on the concentration of the acid. It is important to handle this reaction with caution as it can produce flammable hydrogen gas.