Assertion : Heat of neutralisation of `HNO_(3)` and `NaOH` is same as that of HCl and KOH.
Reason : Both `HNO_(3)` and HCl are storng acids and NaOH and KOH are strong bases.

The heat of neutralisation of HCI with NaOH is same as that of HNO_(3) with KOH .

Assertion(A) : Heat of neutralisation of HCl and NaOH is same as that of H_(2)SO_(4) with NaOH . Reason(R ) : HCl , H_(2)SO_(4) and NaOH are all strong electrolytes.

Assertion (A): The heat of neutralisation of perchloric acid, HCIO_(4) , with NaOH is same as that of HCI with NaOH . Reason (R ) : Both HCI and HCIO_(4) are strong acids.

Assertion : Heat of neutralization for both H_(2)SO_(4) and HCl with NaOH is 53.7 kJ mol^(−1) . Reason : Both HCl and H_(2)SO_(4) are strong acids.

Assertion: Heat of neutralization of HF acid is more than that of HCl acid by a strong base. Reason : HCl is stronger acid than HF

Assertion (A): Heat of neutralisation for both HNO_(3) and HCI with NaOH is 53.7 kJ per mol^(-1) . Reason (R ) : NaOH is a strong electrolyte/base.

The heat of neutralisation of NaOH and HCl is 57.3 kJ mol^(-1) then the amount of heat liberated if 2 moles each of NaOH and HCl are reacted is

Heat of neutralisation of a strong dibasic acid in dilute solution by NaOH is nearly :

Assertion : The heat of neutralisation for a strong acid and a weak base is always equal to -57.1 kJ. Reason : One gram equivalent of a strong acid always neutralises one gram equivalent of a weak base.

Heat of neutralisation between HCI and NaOH is 13.7kcal and between HCN and NaOH is 3 kcal at 45^(@)C . Calculate the heat of ionisation of HCN