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 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.

First and second ionisation energies of magnesium are 7.646 eV and 15.035ev respectively. The amount of energy in kJ needed to convert all the atoms of magnesium intp Mg^(2+) ions present in 12 mg of magnesium vapour will be? [Given 1 eV = 96.5 kJ ml^(-1)]

The ionization enthalpies of Li and Na are "520 kJ mol"^(-1) and "495 kJ mol"^(-1) respectively. They energy required to convert all the atoms present in 70 mg of Li vapours and 230 mg of sodium vapours of their respectively gaseous cations respectively are

First and second ionisation energies of magnesium are 5.7 and 15.035eV respectively. The amount of energy in kJ needed to convert all the atoms of magnesium into Mg^(+2) ions present in 12mg of magnesium vapour is [1eV=96.5kJ " mol"^(-1) ]

The ionization energies of Li and Na are 520 kJ mol ^-1 and 495 kJ mol ^-1 respectively. The energy required to convert all the atoms present in 7 mg of Li vapours and 23 mg of sodium vapours to their respective gaseous captions respectively are :

How many joules of energy must be absorbed to convert Li to Li^(+) , all the atoms present in 1.00 mg of gaseous Li ? lE_(1) of Li is 520.3 kJ mol^(-1)(Li=7) .

First and second ionization energies of magnesium are 7.646 and 15.035 eV respectively. The amount of energy in kJ/mol needed to convert all the atoms of Magnesium into Mg^(2+) ions present in 12 mg of magnesium vapours is: (Report your answer by multiplying with 10 and round it upto nearest integer) (Given 1 eV = 96.5 kJ mol^(-1))