Calculate the cell EMF is mV for
Pt|`H_(2)`(1 atm)|HCl(0.01M)|AgCl(s)|Ag(s) at 298 K
if `DeltaG_(f)^(@)` values are at `25^(@)C`
`-109.56(kJ)//(mol)` for AgCl(s) and
-130.79`(kJ)//(mol)` for `(H^(+)+Cl^(-))` (aq)

Calcualte the cell EMP in mV for Pt|H_(2)(1 atm) | HCl(0.01 M)|| AgCl(s)| Ag(s) at 298 K If DeltaG_(f)^(@) values are at 25^(@)C , -109.56 (kJ)/(mol) for AgCl(s) and -130.79 (kJ)/(mol) for (H^(+) + Cl^(-)(aq) , Take 1F = 96500 C

The EMF of the following cellis 1.05V at 25^(@)C: Pt,H_(2)(g)(1.0 atm)|NaOH(0.1m),NaCl(0.1M)|AgCl(s),Ag(s) Write the cell reaction.

Calculate EMF of the following half cells : a. Pt, H_(2)(2 atm)|HCl(0.02M)" "E^(c-)=0V b. Pt , Cl_(2)(10 atm)|HCl(0.1 M)" "E^(-c)=1.36V

The EMF of the following cellis 1.05V at 25^(@)C: Pt,H_(2)(g)(1.0 atm)|NaOH(0.1m),NaCl(0.1M)|AgCl(s),Ag(s) a. Write the cell reaction, b. Calculate pK_(w) of water.

Calculate the emf of the following cell at 25^(@)C Ag(s)|AgNO_(3) (0.01 M)||AgNO_(3) (0.05 M)|Ag (s)

The EMF of the following cell : Cd(s)|CdCl_(2)(0.10M)||AgCl(s)|Ag(s) is 0.6915V at 0^(@)C and 0.6753V at 25^(@)C . The DeltaH of reaction in kJ at 25^(@)C is

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In the cell Pt (s) | H_(2) (g, 1 " bar")| HCl (aq)| AgCl(s) | Ag(s) | Pt(s) the cell potential is 0.92 V when a 10^(-6) molal HCl solution is used. The standard electrode potential of (AgCl//Ag, Cl^(-)) electrode is {Given, (2.303RT)/(F) = 0.06V at 298 K}

The measured voltage of the cell, Pt(s)|H_2(1.0"atm")|H^+(aq)||Ag^+(1.0M)|Ag(s) is 1.02 V " at " 25^@C . Given E_("cell")^@ is 0.80 V, calculate the pH of the solution .

Consider the cell Ag(s)|AgBr(s)Br^(c-)(aq)||AgCl(s),Cl^(c-)(aq)|Ag(s) at 298 K . The K_(sp) of AgBr and AgCl , respectively are 5xx10^(-13) and 1xx10^(-10) . At what ratio of [Br^(c-)] and [Cl^(c-)] ions, EMF_(cell) would be zero ?