The Enthalpy of neutralization of all strong acids are almost the same. It is between -58 to -59 kilojoules per mole.
No, because one of the products is H2CO3 (an acid)
An acid should fully or partially emit hydrogen ions when it is in an aqueous medium. They should undergo a neutralization reaction with bases. Since nitric acid fulfills these qualities, it is an acid.
The usual primary standard for acid-base titration is sulfuric acid. Nitric acid tends to lose NO2 by volatilization and HCl is also more volatile.
koh+ hno3>h2o+kno3
No. The rate of the neutralization reaction is concentration dependent, but the "heat of neutralization" is defined on a molar basis already, so it is not.
No, because one of the products is H2CO3 (an acid)
An acid should fully or partially emit hydrogen ions when it is in an aqueous medium. They should undergo a neutralization reaction with bases. Since nitric acid fulfills these qualities, it is an acid.
The usual primary standard for acid-base titration is sulfuric acid. Nitric acid tends to lose NO2 by volatilization and HCl is also more volatile.
Yes, heat of neutralization is directly proportional to the concentration of the acid. the more the concentration the more the heat emitted at the time of neutralization.
It is a neutralization reaction. An example: HNO3 + NaOH ---> NaNO3 + H2O, where HNO3 is nitric acid and NaNO3 is sodium nitrate.
koh+ hno3>h2o+kno3
No. The rate of the neutralization reaction is concentration dependent, but the "heat of neutralization" is defined on a molar basis already, so it is not.
Heat of neutralization describes one of the effects of mixing a base with an equally strong acid. This neutralizes the substance, which changes the substance's heat as a result.
no every acid base pair does not have same heat of neutralisation.
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.
Magnesium (Mg) + Nitric Acid (HNO3) ---> Magnesium Nitrate (MgNO3) + Hydrogen gas (H) + Heat
Specific Heat at 15C (60F) 100% nitric acid = 1.74 J/g C 95% nitric acid = 1.50 J/g C 70% nitric acid = 2.27 J/g C 60% nitric acid = 2.68 J/g C 10% nitric acid = 3.77 J/g C