00:01
So here if we see the formula for the compound, which is we can say m .o2.
00:07
Here, the m .o2 in a solid state, or we can say mo2 rather than the mo2.
00:16
So here we can say this mo in the solid state it is here.
00:23
And the delta h note here, it is minus 2, we can say minus 2 to 7, 8.
00:32
Kilojoule per mole here and here further the bone dissociation enthalpy of the o2.
00:41
Bone dissociation enthalpy of the o2.
00:46
It is in this case we can say 498 kilojoule per mole and here the electron affinity of oxygen.
00:58
It is we can say minus 141 kilojoule per mole.
01:03
Per mole for the first case electron electron ea2 it can be written and it is we can say plus 744 kilojoule per mole so this thing it is written so further what we can say that the enthalpy of the sublimation of the metal we should write so for the particular thing for the lattice energy we should add up all the energies so, enthalpy of sublimation of the metal, enthalpy of the sublimation of the metal, we should write here, and here it is 125 kilojoules per mole, and the ionization energy of the metal, we can say it is 309 kilojoule per mole.
02:00
So here we can find the ionization energy.
02:04
So formation of the compound, which is mo, we can use...