lead(II) nitrate and hydrogen gas
The reaction between phenol and dilute nitric acid forms nitrophenol and water. The equation is: C6H5OH + HNO3 → C6H5NO3 + H2O
Yes, copper reacts with dilute nitric acid to form copper(II) nitrate, nitrogen dioxide gas, and water. The reaction between copper and dilute nitric acid is a redox reaction where copper is oxidized from its elemental form to copper(II) ions, and nitric acid is reduced to nitrogen dioxide gas.
When silver is reacted with dilute nitric acid, silver nitrate and nitrogen dioxide gas are produced. The reaction can be represented by the equation: 3Ag + 4HNO3 → 3AgNO3 + 2H2O + 2NO2.
1-diluted : Fe+4HNo3ـــــــــــــــdilu. + heatــــــــــــ Fe(No3)3+2H2o+No 2-with concentrated no reaction occurs becase of the iron passivity which is due to the oxidizing property of the acid were a layer of the metal oxide is formed which is complete and non porous so it protects the metal from further reaction
Dilute Nitric acid when reacted with Sodium hydroxide will produce Sodium nitrate and Water. NaOH + HNO3 = NaNO3 + H2O.
The reaction between phenol and dilute nitric acid forms nitrophenol and water. The equation is: C6H5OH + HNO3 → C6H5NO3 + H2O
Yes, copper reacts with dilute nitric acid to form copper(II) nitrate, nitrogen dioxide gas, and water. The reaction between copper and dilute nitric acid is a redox reaction where copper is oxidized from its elemental form to copper(II) ions, and nitric acid is reduced to nitrogen dioxide gas.
When silver is reacted with dilute nitric acid, silver nitrate and nitrogen dioxide gas are produced. The reaction can be represented by the equation: 3Ag + 4HNO3 → 3AgNO3 + 2H2O + 2NO2.
1-diluted : Fe+4HNo3ـــــــــــــــdilu. + heatــــــــــــ Fe(No3)3+2H2o+No 2-with concentrated no reaction occurs becase of the iron passivity which is due to the oxidizing property of the acid were a layer of the metal oxide is formed which is complete and non porous so it protects the metal from further reaction
Dilute Nitric acid when reacted with Sodium hydroxide will produce Sodium nitrate and Water. NaOH + HNO3 = NaNO3 + H2O.
The chemical equation for the reaction between dilute nitric acid and aqueous silver sulfate is: 2 HNO3 + Ag2SO4 -> Ag2(NO3)2 + H2SO4
When sodium bicarbonate reacts with nitric acid, sodium nitrate salt is formed along with carbonic acid (double replacement reaction), which immediately decomposes to water and gaseous carbon dioxide (which explains the fizzing). The concentration of the nitric acid affects the rate of reaction, the more dilute it is, the slower the reaction will progress. The more pure the nitric acid, the faster the reaction will take place.
Yes, sulfur can react with dilute nitric acid (HNO3) to form sulfur dioxide gas, nitrogen dioxide gas, and water. This reaction is a redox reaction where sulfur is oxidized and nitric acid is reduced.
Potassium hydroxide is a strong base, while dilute nitric acid is a strong acid. Potassium hydroxide is alkaline, whereas dilute nitric acid is acidic. They have different chemical properties and uses in various processes.
Nitric acid can be dilute or concentrated. This is simply a matter of how much of it you have in a given amount of a solution, which is variable.
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)
A dilute solution of nitric acid has a lower concentration of nitric acid molecules compared to a concentrated solution. This leads to the dilute solution having a lower acidic strength and being less corrosive. Concentrated nitric acid, on the other hand, has a higher concentration of nitric acid molecules, making it more acidic and corrosive.