(a)`M_((g))^(-) to M_((g)) , (b)M_((g)) to M_((g))^(+) , (c)M_((g))^(+) to M_((g))^(2+) , (d)M_((g))^(2+) to M_((g))^(3+)`
Minimum and maximum I.P. would be of :

Consider the following changes a) M_((g))^(+2) rarr M_((g))^(+3) + e^(-) b) M_((g))^(+) rarr M_((g))^(+2) + e^(-) d) M_(g) rarr M_((g))^(+3) + 3e^(-) In Which case more energy is required

Consider the following ionization energies for a metal M M_((g)) to M_((g))^(+)+e^(-) , DeltaH =+580 kJ/mole M_((g))^(+) to M_((g))^(2+) + e^(-), DeltaH =+1815 kJ/mole M_((g))^(2+) to M_((g))^(3+) + e^(-) , DeltaH =+2740 kJ/mole M_((g))^(3+) + M_((g))^(4+) + e^(-) , DeltaH = + 11600 kJ/mole Total no. of electron(s) in outermost shell of metal M are:

Consider the following ionization energies for a metal M M_((g)) to M_((g))^(+)+e^(-) , DeltaH =+580 kJ/mole M_((g))^(+) to M_((g))^(2+) + e^(-), DeltaH =+1815 kJ/mole M_((g))^(2+) to M_((g))^(3+) + e^(-) , DeltaH =+2740 kJ/mole M_((g))^(3+) + M_((g))^(4+) + e^(-) , DeltaH = + 11600 kJ/mole Which one of the four ions has largest electron affinity?

Consider the following ionization energies for a metal M M_((g)) to M_((g))^(+)+e^(-) , DeltaH =+580 kJ/mole M_((g))^(+) to M_((g))^(2+) + e^(-), DeltaH =+1815 kJ/mole M_((g))^(2+) to M_((g))^(3+) + e^(-) , DeltaH =+2740 kJ/mole M_((g))^(3+) + M_((g))^(4+) + e^(-) , DeltaH = + 11600 kJ/mole Select correct order.

M_((g)) to M_((g))^(+) + e^(-) , DeltaH =100 eV , M_((g)) to M_((g))^(2+) + 2e^(-) , DeltaH =250 eV Which is incorrect statement ?

M_((g)) +IE _((a )) to M_((g))^(+) +e^(-) M_((g))^(+) +IE _((b)) to M^(+2) ""_((g)) + E^(-) from the date which IE is called as second as second ionisation erengy ?

DeltaH in terms of 'x' xx 10^(3) KJ is if M_((g)) + 2X_((g)) rarr M_((g))^(2+) + 2X_((g))^(-) Given : (I.E)_(1) of M (g) = 705.7 kJ mol^(-1), (I.E)_(2) " of" M(g) = 951 kJ mol^(-1) and (E.A)_(1) of X(g) = -328 kJ mol^(-1) 'x' is

G.M. of a and 1/a is ……….