Co^(3+)+e^(-)toCo^(2+),E^(@)=+1.81V Pb...

`Co^(3+)+e^(-)toCo^(2+),E^(@)=+1.81V`
`Pb^(4+)+2e^(-)toPb^(2+),E^(@)=+1.67V`
`Ce^(4+)+e^(-)toCe^(3+),E^(@)=+1.61V`
`Bi^(3)+3e^(-)toBi,E^(@)=+0.20V`
Oxidizing power of the species will increase in the order

`Ce^(4+)ltPb^(4+)ltBi^(3+)ltCo^(3+)`

`Bi^(3+)ltCe^(4+)ltPb^(4+)ltCo^(3+)`

`Co^(3+)ltCe^(4+)ltBi^(3+)ltPb^(4+)`

`Co^(3+)ltPb^(4+)ltCe^(4+)ltBi^(3+)`

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Given : Co^(3+)+e^(-)rarr Co^(2+), E^(@)=+1.181V Pb^(4+)+2e^(-)rarrPb^(2+),E^(@)=+1.67V Ce^(4+)+e^(-) rarr Ce^(3+), E^(@)=+1.61V Bi^(3+)+3e^(-)rarr Bi^(3+)+3e^(-)rarr Bi, E^(@)=+2.20V Oxidizing power of the species will increase in the order:

Given : Co^(3+) + e^(-) to Co^(2+) , E^(@) = +1.81V pb^(4+) + 2e^(-) rightarrow Pb^(2+) , E^(@) = + 1.67V Ce^(4)+ e^(-)rightarrow Ce^(3+), E^(@) = +1.61V Ce^(4)+3e^(-)rightarrow Bi , E^(@) = + 0.20V Oxidation power of the species will increase in the order:

Electrode potential data are given below: Fe^(3+)(aq)+e^(-)rarrFe^(2+)(aq):E^(@)=+0.77V Al^(3+)+3e^(-)rarrAl(s):E^(@)=-1.66V Br_(2)(aq)+2e^(-)rarr2Br^(-)(aq):E^(@)=+1.08V , Based on the data, the reducing power of Fe^(2+) Al and Br^(-) will increase in the order

Pb^(+2) + 2e^(-) rarr Pb(s), E^(@) = -0.13V Sn^(+2) + 2e^(-) rarr Sn(s), E^(@) = - 0.16V Ni^(+2) + 2e^(-) rarr Ni(s), E^(@) = -0.25V Cr^(+3) + 3e^(-) rarr Cr(s), E^(@) = -0.74V Based on the above data, the reducing power of Pb, Sn, Ni and Cr is in the order

Consider following half cell reaction and corresponding standard (reduction) electrode potentials. I. A+e^(-)rarrA:E^(@)=-24V II. B^(-)+e^(-)rarrB^(2-):E^(@)=+1.25V III. C^(-)+2e^(-)rarrC^(3-):E^(@)=-1.25V IV. D+2e^(-)rarrD^(2-):E^(@)=+0.68V V. E+4e^(-)rarrE^(-4):E^(@)=0.38V . If every ion has concentration 1 M in the cell the largest cell potential at 298K is

According to the standard reduction potentials: Pb^(2+)(aq) + 2e^(-) rightarrow Pb(s) E^(@) = -0.13V Fe^(2+)(aq) + 2e^(-) rightarrow Fe(s) E^(@) = -0.44 Zn^(2+)(aq) + 2e^(-) rightarrow Zn(s) E^(@) = -0.76V Which species will reduce Mn^(3+) to Mn^(2+) [E^(@) = 1.51V but will NOT reduce Cr^(3+) to Cr^(2+) [E^(@) = -0.40V]

Standard electrode potential data is given below : Fe^(3+) (aq) + e ^(-) rarr Fe^(2+) (aq) , E^(o) = + 0.77 V Al^(3+) (aq) + 3e^(-) rarr Al (s) , E^(o) = - 1.66 V Br_(2) (aq) + 2e^(-) rarr 2Br^(-) (aq) , E^(o) = +1.08 V Based on the data given above, reducing power of Fe^(2+) Al and Br^(-) will increase in the order :

JEE MAINS PREVIOUS YEAR-JEE MAINS-QUESTION

Co^(3+)+e^(-)toCo^(2+),E^(@)=+1.81V Pb^(4+)+2e^(-)toPb^(2+),E^(@)=+1...
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Calculate DeltafH^(@) ("in" (kJ)/("mol")) for C2H6(g), if DeltacH^@ [C...
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`Co^(3+)+e^(-)toCo^(2+),E^(@)=+1.81V` `Pb^(4+)+2e^(-)toPb^(2+),E^(@)=+1.67V` `Ce^(4+)+e^(-)toCe^(3+),E^(@)=+1.61V` `Bi^(3)+3e^(-)toBi,E^(@)=+0.20V` Oxidizing power of the species will increase in the order

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JEE MAINS PREVIOUS YEAR-JEE MAINS-QUESTION

`Co^(3+)+e^(-)toCo^(2+),E^(@)=+1.81V`
`Pb^(4+)+2e^(-)toPb^(2+),E^(@)=+1.67V`
`Ce^(4+)+e^(-)toCe^(3+),E^(@)=+1.61V`
`Bi^(3)+3e^(-)toBi,E^(@)=+0.20V`
Oxidizing power of the species will increase in the order