All the energy released from the reaction `Xto Y`, `Delta_(r) G^(@) = -330.03KJ//mol` is used for of moles of `M ^(+)` oxidisesd when one mol of X is converted to Y is:` (F= 96500Cm1^(-1)`)

All the energy released from the reaction XtoY,Delta _(r)G^(@) = -193KJmol^(-1) is used for oxidizing M^(+) as M^(+)toM^(3+)+ 2e^(-) , e^(@) =-0.25V . Under standard conditions, the number of moles of oxidized when one mole of X is converted to Y is [F = 96500Cmol^(-1)]

All the energy released from the reaction XtoY,Delta _(r)G^(@) = -193KJmol^(-1) is used for oxidizing M^(+) as M^(+)toM^(3+)+ 2e^(-) , e^(@) =-0.25V . Under standard conditions, the number of moles of oxidized when one mole of X is converted to Y is [F = 96500Cmol^(-1)]

All the energy realesed from the reation X rarr Y, Delta_(r) G^(@) = -193 kJ mol^(-1) , is used for oxidizing M^(+) as M^(+) rarr M^(3+) + 2e^(-), E^(@) = -0.25 V . Under standard consistions, the number of moles of M^(+) oxidized when on e mol of X is converted to Y is [F = 96,500 C "mol"^(-1)]

All the energy released from the reaction XrarrY,Delta_(r)G^(@)=-193kJ"mol"^(-1) is used for oxidising M^(@) as M^(+)rarrM^(3+)+2e^(-),E^(@)=-0.25V . Under standard conditions, the number of moles of M^(+) oxidised when one mole of X is converted to Y is [F=96500C "mol"^(-1)]

Calculate Delta G (in joule) for the reaction 2A(g) to B(g)+C(g) when mixture contains 1 mole of A, 2 moles of B and 1 mole of C at total pressure of 10 atm and 300 K. [Given : G_(m)^(@),A(g)=40 "kJ mol"^(-1) , G_(m)^(@),B(g)=60 "kJ mol"^(-1) , G_(m)^(@),C(g)=20 "kJ mol"^(-1) , R=8.3 JK^(-1)mol^(-1) and "In " 2=0.7 ]