Calculate the energy required to convert all atoms of `Mg` to `Mg^(2+)` ions present in `48 mg` of `Mg` vapours. `IE_(1)` and `IE_(2)` of `Mg` are `740` and `1450 kJ mol^(-1)` respectively.

The energy required to convert all atoms present in 1.2 g. magnesium to Mg^(2+) ions if IE and IE_(2) of magnesium are 120 kJ "mol"^(-1) and 240 kJ "mol"^(-1) respectively

The energy required to convert all atoms present in 1.2 g. magnesium to Mg^(2+) ions if IE and IE_(2) of magnesium are 120 kJ "mol"^(-1) and 240 kJ "mol"^(-1) respectively

Calculate the energy in joules required to convert all the atoms of sodium to sodium ions present in 2.3 mg of sodium vapours? Ionization enthalpy of sodium is 495 kJ "mol"^(-1 ) (Atomic mass of Na = 23)

Calculate the energy in joules required to convert all the atoms of sodium to sodium ions present in 2.3 mg of sodium vapours? Ionization enthalpy of sodium is 495 kJ "mol"^(-1 ) (Atomic mass of Na = 23)

Calculate the energy (in kJ unit) required to convert all sodium atoms into sodium ion, present in 3.45 mg of its vapour ? (I.P of sodium 490kJ mol^(-1) )

Calculate the energy required to convert all the atoms of M (atomic number : 12) to M^(2+) ions present in 12 mg of metal vapours. First and second ionization enthalpies of M are 737.77 and 1450.73 kJ " mol"^(-1) respectively.

Calculate the energy required to convert all the atoms of M (atomic number : 12) to M^(2+) ions present in 12 mg of metal vapours. First and second ionization enthalpies of M are 737.77 and 1450.73 kJ " mol"^(-1) respectively.

1g of Mg atoms in the vapour phase absorbs 50.0KJ of energy find the percentage composition of Mg^+ and Mg^(+2) formed as a result of absorption of energy IE_1 and IE_2 for Mg are 740 and 1450kjmol^(-1) respectively