HCl and HNO^3 are both acids therefore Neutralisation cannot occur.
-54,6kJ
-55.8 KJ/mol
Neutralization: HNO3 + NaOH -> NaNO3 + H2O Decomposition by heating: NaNO3 -> NaNO2 + 1/2 O2 Preparation of HNO2: NaNO2 + HCl -> HNO2 + NaCl
Acetic acid is a weak acid while HCl or H2SO4 are both strong acids. Being strong acids, the heat given off during neutralization is much greater.
Nats.
1 part of concentrated HNO3 by volume3 part of concentrated HCl by volume
-55.8 KJ/mol
Neutralization: HNO3 + NaOH -> NaNO3 + H2O Decomposition by heating: NaNO3 -> NaNO2 + 1/2 O2 Preparation of HNO2: NaNO2 + HCl -> HNO2 + NaCl
Acetic acid is a weak acid while HCl or H2SO4 are both strong acids. Being strong acids, the heat given off during neutralization is much greater.
Nats.
1 part of concentrated HNO3 by volume3 part of concentrated HCl by volume
All inorganic acids have a formula that begins with H (HCl, HNO3, H2SO4,etc). Organic acids (acetic acid, oxalic acid, etc) generally do not. "What do you do with" them is rather vague. They all undergo similar neutralization reactions. Naming them depends on what anions the hydrogen is combined with (hydrochloric - HCl vs nitric - HNO3).
The chemical formula for Hydrogen Nitrate is: HNO3
NaClO + HNO3 --- NaNO3 + HCl + Cl2
I assume you mean Neutralization between an acid and a base. A neutralization reaction produces water and a salt. Ex: NaOH + HCl yields H2O and NaCl
Concentrated mixture of HCl and HNO3
(C2H5)3N + HCl = (C2H5)3N+Cl-
Because it is a reaction between an acid and a base.