Given an element having following ionisation enthalpies `IE_1 = 496 (kJ)/(mol)` and `IE_2 = 4562 (kJ)/(mol)` one mole hydroxide of this element is treated separated with `HCl` and `H_2SO_4` respectively. Moles of `HCl` and `H_2SO_4` reacted respectively is

The first and second ionisation enthalpies of a metal are 496 and 4560 KJ mol ^(-1) , respectively. How many moles of HCI and H_2SO_4 Respectively , will be needed to react completely with 1 mole of the metal of the metal hydroxide ?

Ionisation enthalpy (Delta_(t)H_(l) "in" kJ mol^(-1)) for the elements of group-13 follows the order

Bond dissociation enthalpy of H_(2),Cl_(2) and HCl are 434,242 and 431kJ mol^(-1) respectively. Enthalpy of formation of HCl is :

An element X has IE and EA respectively 275 and 1450 kJ mol^(-1) . The electronegativity of element according to Pauling scale is

The first (Delta_(i)H_(1)) and second (Delta_(i)H_(2)) ionization enthalpies ("in kJ mol"^(-1)) and the electron gain enthalpy (Delta_(eg)H)("in kJ mol"^(-1)) of the elements I, II, III, IV and V are given below the least reactive non - metal and the most reactive metal of these are respectively

Calculate the enthalpy of ionisation of week acid H_(2)A rarr 2 H^(+) + A^(2) in Kcal/mol if enthalpies of neutralisation of HCl and H_(2)A by strong base are "14 Kcal/eq and 11Kcal/eq respectively.

Calculate enthalpy of formation of HCl if Bond enthalpies of H_2, Cl_2 and HCl are 434 kJ mol^(-1) , 242 kJ mo l^(-1) and 431 kJ mol^(-1) respectively.