Potassium chloride is the answer as it would've neutralised the other liquid and the salt is potassium nitrate and therefore is named after like the salt and neutralisation put in.
This question cannot be answered because if you neutralise citric acid you will get a citrate, not a nitrate. To get potassium nitrate you will need the alkali potassium hydroxide and nitric acid.
It depends on what it reacts with. The resulting salt would be a compound between Nitrate (NO3) and the metal of the reacting base.
Potassium nitrate salt would be formed when nitric acid and potassium hydroxide are reacted together.
Potassium Nitrate+Water HNO3 (aq)+KOH (aq)-->KNO3 (aq)+H2O (l)
The reaction between potassium hydroxide and nitric acid produces potassium nitrate, which is a common form of inorganic fertilizer. Potassium nitrate provides plants with essential nutrients such as potassium and nitrogen, supporting their growth and overall health.
This question cannot be answered because if you neutralise citric acid you will get a citrate, not a nitrate. To get potassium nitrate you will need the alkali potassium hydroxide and nitric acid.
It depends on what it reacts with. The resulting salt would be a compound between Nitrate (NO3) and the metal of the reacting base.
Oh, dude, when you mix nitric acid with potassium hydroxide, you get potassium nitrate and water. It's like a little chemistry party where they all switch partners and make new compounds. So, yeah, it's basically a chemical reaction that forms a salt and water.
Potassium nitrate salt would be formed when nitric acid and potassium hydroxide are reacted together.
Potassium Nitrate+Water HNO3 (aq)+KOH (aq)-->KNO3 (aq)+H2O (l)
The reaction between potassium hydroxide and nitric acid produces potassium nitrate, which is a common form of inorganic fertilizer. Potassium nitrate provides plants with essential nutrients such as potassium and nitrogen, supporting their growth and overall health.
When potassium reacts with nitric acid, it produces potassium nitrate (KNO3) and nitrogen dioxide gas (NO2). This is a redox reaction where potassium is oxidized to potassium ions while nitric acid is reduced to nitrogen dioxide gas.
When nitric acid reacts with potassium hydroxide, potassium nitrate and water are formed. The balanced chemical equation for this reaction is: HNO3 + KOH → KNO3 + H2O. This is a neutralization reaction.
When sulfuric acid reacts with potassium nitrate, it forms potassium sulfate, nitric acid, and water.
potassium hydroxide is POH and nitric acid is HNO3
To neutralize potassium hydroxide, add an acid such as hydrochloric acid (HCl) in a 1:1 stoichiometric ratio until the pH is close to 7. The reaction will produce water and potassium chloride salt. Use a pH meter to monitor and ensure complete neutralization.
A Nitrate salt depending on what was used to neutralise the acid. E.g. If you used copper to neutralise the nitric acid then copper nitrate would be produced.