Consider the following ionization steps:
`M(g) to M^(+) (g) + e^(-) , DeltaH = + 100 eV`
`M(g) to M^(2+) (g) + 2e^(-) , Delta H = + 250 eV`
Select correct statement(s):

Consider the following ionization steps : M(g) rarr M^(+)(g) +e^(-), DeltaH=100eV M(g) rarr M^(2+)(g)+2e^(-),DeltaH=250eV Select correct statement(s)

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

For the process X(g) +e^(-) rarr X^(-)(g), DeltaH = x and X^(-)(g) rarr X(g) +e^(-), DeltaH = y Select correct alternate :

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

A^(+)(g) rarr A(g) DeltaH =- 2eV 2A(g) rarr 2A^(+) (g) DeltaH = x Find the value of x in eV.

Consider the following Ionisation energies for a metal M {:(M(g)rarrM^(+)(g)+e^(-),DeltaH=+580KJ//"mole"),(M^(+)(g)rarrM^(2+)(g)+e^(-),DeltaH=+1815KJ//"mole"),(M^(2+)(g)rarrM^(3+)(g)+e^(-),DeltaH=+2740KJ//"mole"),(M^(3+)(g)rarrM^(4+)(g)+e^(-)(g)e^(-),DeltaH=+11600KJ//"mole"):} Select the correct