STATEMENT-1: If SOP of substance is less than -1.23 V and over voltage=0V, then its oxidation in its aqueous solution is not possible at 298 K. ,
STATEMENT-2: Standard reduction potential (SRP) of water is +1.23V.

At what concentration of copper sulphate solution, the potential of Cu^(2+) , Cu becomes zero? The standard reduction potential of Cu^(2+) , Cu is 0.34 V.

NO_(3)^(-)(aq) + 2H^(+) (aq) + e^(-) to NO_(2)(g) + H_2O . Calculate the reduction potential of the half reaction in neutral solution, if all other species to be at unit concentration and the standard reduction potential is 0.78 V.

What is the electrode potential (in V) of the following electrode at 25^(@)C? Ni^(2+)(0.1)|Ni_((s)) (standard reduction potential of Ni^(2+)|Ni is -0.25V, 2.303RT//F=0.06 )

For a hald cell containing a Pt rod immersed in a solution of 1M HA, O _(2)(g) is bubbled at 1 atm. The stnadard reduction potential for water formation is 1.23 V. Given a dissociation constant, Ka=1 xx 10^(-4) for HA, what is E_("half cell") at 298 K in V?

The elevation in boling point of an aqueous solutions of NaCl is 0.01 .^(@) C . If its van't Hoff factor is 1.92 ,the molality of NaCl solution is ( K_(b) for water = 0 . 52 k kg mol^(-1) )

The solubility product of SrF_(2) in water is 8xx10^(-10) Calculate its solubility in 0.1 M of aqueous NaF solution. If its solubility is expressed as y xx 10^(-8) then what is the value of 'y' ?

Standard oxidation potential of iron electrode is + 0.44 V. Calculate the potential of Fe, FeSO_4(0.1 M) at 25^@C .