If `H^(+)+OH^(-)rarrH_(2)O+13.7Kcal` , the heat of neutralisation for complete neutralisation of 1 mole of `H_(2)SO_(4)` by base will be

1 mole of H_(2)SO_(4) will exactly neutralise:

The heat of neutralisation for strong acid and strong base forming 2 moles of water is

The heat of formation of H_(2)O(l) is -68.0 kcal, the heat of formation of H_(2)O(g) can logically be

What weight of 60% pure NaOH is required to neutralise 100 ml (M)/(10)H_(2)SO_(4) solution ?

If one mole of H_(2)SO_(4) reacts with one mole of NaOH, equivalent weight of H_(2)SO_(4) will be :

In an acid base titration 50ml of 2N-NaOH solution is completely neutralised by 20ml of H_(2)SO_(4) . What is the molarity of sulphuric acid solution?

4.48 lit of ammonia at STP is neutralised using 100 ml of a solution of H_(2)SO_(4) , the molarity of acid is

0.62 g Na_2 CO_3. xH_2 O completely neutralises 100 ml of N/10 H_2 SO_4 . The value of x must be:

100 " mL of " 0.2 M Kal (OH)_(2)CO_(3) solution is completely neutralised by a standard solution of (M)/(4)H_(2)C_(2)O_(4) . Which of the following is/are wrong?

Delta_(f)H(H_(2)O) =- 68 kcal mol^(-1) and DeltaH of neutralisation is -13.7 kcal mol^(-1) , then the heat of formation of overset(Theta)OH is