Latimer diagram for Cu in an acidic solution is:
`Cu^(+2) overset(+0.15V)toCu^(+) overset(+0.50)toCu,`

The reduction potential diagram for Cu in acid solution is : Calculate X . Does Cu^(+) disproportionate in solution ?

Standard reduction potential (volts) in acid solution is given by the Latimer diagram as shown: CiO_(4)^(-)overset(1.19)rarrCIO_(3)^(-)overset(1.21)rarrCIOrarrCl_(2)rarrCl^(-) Which of the following cannot disproportionate in acid solution under standard conditions?

Standard reduction potential (volts) in acid solution is given by the Latimer diagram as shown: CiO_(4)^(-)overset(1.19)rarrCIO_(3)^(-)overset(1.21)rarrCIOrarrCl_(2)rarrCl^(-) What is standard reduction potential of CIO_(3)^(-)rarr(1)/(2)Cl_(2) In acidic medium is:

Find out the compounds that will disproportionate in their aqueous solution. (I)ClO_(4)^(-)overst(+0.36V)rarr ClO_(3)^(-) overset(+0.33V)rarr ClO_(2) overset(+0.66V)rarr OC l^(-)overset(+0.40V)rarr(1)/(2)Cl_(2)overset(+1.36)rarr Cl^(-) (II)MnO_(4)^(-)overset(+0.56)rarrMnO_(4)^(2-)overset(+2.22V)rarrMnO_(2)overset(+0.95V)rarrMn^(3+)overset(+1.55)rarrMn^(2+)overset((-0.19)V)rarrMn

Which component is being reduced in the reaction ? CuO+H_(2)overset(Delta)toCu+H_(2)O

E^@ values for the half cell reactions are given below : Cu^(2+) + e^(-) to Cu^(+) , E^@ =0.15 V Cu^(2+) + 2e^(-) to Cu, E^@ =0.34 V What will be the E^@ of the half-cell : Cu^(+) + e^(-) to Cu ?