The potential of the cell containing two hydrogen electrodes as represented below
`Pt, H_2(g) |H^(+) (10^(-6) M)|| H^(+) (10^(-4) M)|H_2(g) , Pt` at 298 K is

The potential of hydrogen electrode is -118 mV . The H^(+) concentration of the solution is

The EMF of a galvanic cell consisting of two hydrogen electrodes is 0.17 V. If the solution of one of the electrodes has [H^(+)]=10^(-3) M, the pH at the other electode is

The cell for which the cell reaction is H_2 + Cu^(2+) to 2H^(+) + Cu is represented as

The enthalpy for the following reaction (at 25^(@)C are given below): (i) ½H_(2(g)) + ½ O_(2(g)) rarr OH_((g)) = 10.06 Kcal (ii) H_(2(g)) rarr 2H_((g)) 104.18 Kcal (iii) O_(2(g)) rarr 2O_((g)) 118.32 Kcal Calculate the O-H bond energy in the hydroxyl radical (give your answer in terms of 10^(5) cal)

Mention electrodes and write the cell representing a redox reaction, Zn + H_2SO_4 to Zn SO_4 + H_2 .

Which of the following changes will increase the emf of the cell : Co(s) | CoCl_2 (M_1)|| HCl(M_2) |Pt(H_2,g)

Calculate the potential of the half-cell containing 0.1 M K_(2)Cr_(2)O_(7(aq)), 0.2M Cr_((aq))^(3+)and 1.0xx10^(-4) M H_((aq))^(+). The half-reaction Cr_(2) O_(7(aq))^(2-)+ 14 H_((aq))^(+)+6e^(-)to 2 Cr_((aq))^(3+)+7H_(2)O_((l)) (E^(0) of Cr_(2)O_(7)^(2-) //Cr^(3+)=1.33V)