Using the data given below,predict the nature of heat changes for the reaction .
`Mg_(g) + 2F_(g) rarr Mg_(g)^(2+) +2F_(g)^-`
`IE_1` and `IE_2` of `Mg_(g) `are `737.7 ` and `451 kJ "mol"^(-1)` . `EA_1 ` for `F_(g)` is `-328 kJ "mol"^(-1)`.

Calculate the percentage of Mg_((g))^(o+) and Mg_((g))^(2+) if 2.4 g of Mg absorbs 120 kJ of energy. The IE_(1) and IE_(2) of Mg_((g)) are 740 and 1450 kJ mol^(-1) .

IE_(1) and IE_(2) of Mg are 178 and 348 kcal mol^(-1) . The energy required for the reaction Mg rarr Mg^(2+)+2e^(-) is

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.

Using ._(f)G^(Theta)(Hi) = 1.3 kJ mol^(-1) , calculate the standard free enegry change for the following reaction: H_(2)(g) +I_(2)(g) rarr 2HI(g)

Calculate the enthalpy change during the reaction : H_(2(g))+Br_(2(g))rarr 2HBr_((g)) Given, e_(H-H)=435kJ mol^(-1),e_(Br-Br)=192kJ mol^(-1) and e_(H-Br)=368kJ mol^(-1).

What is the DeltaH of the following affinity. Mg_(g)+2F_(g) rarr Mg_((g))^(2+)+2F_((g))^(-) . If the electron affinity of F_(g) = -328 kJ " mol"^(-1) and first ionisation energy of Mg = 737.7kJ " mol"^(-1) and second ionisation energy of Mg = 1451kJ " mol"^(-1)

Calculate DeltaH for the reaction H_(2)(g)+1//2O_(2)(g)toH_(2)O(g) given the bond energies of H-H and O=O bonds and O-H bond are 433 kJ mol^(-1) , 492 kJ mol^(-1) and 464kJ" "mol^(-1) .

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