Consider the following table of standard reduction potentials.
`{:("Reaction",E^@(V)),(A^(3+)+2e^(-) rarrA^+,1.36),(B^(2+)+2e^(-)rarrB,0.72),(C^(2+)+2e^(-)rarrC,-0.28),(D^(+)+e^(-)rarrD,-1.42):}`
Which substance can be reduced by C ?

Consider the following table of standard reduction potentials. {:("Reaction",E^@(V)),(A^(3+)+2e^(-) rarrA^+,1.36),(B^(2+)+2e^(-)rarrB,0.72),(C^(2+)+2e^(-)rarrC,-0.28),(D^(+)+e^(-)rarrD,-1.42):} Which substance can be oxidised by B^(2+) ?

Consider the following table of standard reduction potentials. {:("Reaction",E^@(V)),(A^(3+)+2e^(-) rarrA^+,1.36),(B^(2+)+2e^(-)rarrB,0.72),(C^(2+)+2e^(-)rarrC,-0.28),(D^(+)+e^(-)rarrD,-1.42):} Which of the following reaction will occur ? (i) B^(2+) +C rarr B +C^(2+) (ii) C^(2+)+ArarrC+A^(2+)

Given the standard reduction potentials. {:(O_(2)+4H^(+)+4e^(-)rarr2H_(2)O,E^(@)=1.23V),(Br_(2)+2e^(-)rarr2Br^(-),E^(@)=1.08V),(2H^(+)+2e^(-)rarrH_(2),E^(@)=0.00V),(Na^(+)+e^(-)rarrNa,E^(@)=-2.71V):} What products are formed in the electrolyss of 1M NaBr in a solution with [H_(3)O^(+)]=1M ?

According to the reductions potentials in the table below, which statements is true under standard conditions? {:("Reaction", E^(@)V), (L^(2+) + 2e^(-) rightarrow L, -0.13), (M^(2+) + 2e^(-) rightarrow M, -0.44),(N^(2+) + 2e^(-) rightarrow N, -0.76):}

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 . Cell with the largest cell potential is

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