The standard free enrgy change for the r...

The standard free enrgy change for the reaction,
`H_(2)(g) +2AgCl(s) rarr 2Ag(s) +2H^(+) (aq.) +2Cl^(-) (aq.)`
is `-10.26" kcal mol"^(-1)` at `25^(@)C`. A cell using the above reaction is operated at `25^(@)C` under `P_(H_(2))=1` atm, `[H^(+)]` and `[Cl^(-)]=0.1`. Calculate the emf of the cell.

Text Solution

Verified by Experts

The correct Answer is:

0.340 volt

Promotional Banner

Promotional Banner

Topper's Solved these Questions

ELECTROCHEMISTRY
OP TANDON|Exercise OBJECTIVE TYPE QUESTION (LEVEL -A)|194 Videos
ELECTROCHEMISTRY
OP TANDON|Exercise OBJECTIVE TYPE QUESTION (LEVEL -B)|52 Videos
ELECTROCHEMISTRY
OP TANDON|Exercise ILLUSTRATIONS|28 Videos
COORDINATION COMPOUNDS
OP TANDON|Exercise SBJECTIVE TYPE|96 Videos
HALOALKANES AND HALOARENES
OP TANDON|Exercise Single Interger answer type questions|14 Videos

Similar Questions

Explore conceptually related problems

The reaction, (1)/(2) H_(2) (g) + Ag Cl (s) = H^(+) (a.q) + Cl^(-) (a.q) + Ag (s) occurs in the galvanic cell:

The standard emf of the cell. Cd(s) | CdCl_(2) (aq) rightarrow 2Ag(s) + Cd^(2+) (aq) + 2Cl^(-)(aq) is 0.6915 V at 0^(@) and 0.6753 V at 25^(@)C . The DeltaH^(@) of the reaction at 25^(@)C is:

The reaction, (1)/(2)H_(2)(g) + AgCl(s) H^(+)(aq)+Cl^(-) (aq)+Ag(s) . Occurs in the galvanic cell :

The reaction 1//2Hg(g)+AgCl(s) rarr H^(o+)(aq)+Cl^(c-)(aq)+Ag(s) occurs in the galvanic cell.

Consider the following reaction, 1/2 H_(2)(g)+AgCl (s) rarr H^(+) (aq)+Cl^(-) (aq) +Ag(s) Above reaction occurs in the galvanic cell

OP TANDON-ELECTROCHEMISTRY-PRACTICE PROBLEMS

For the measurement of the solubility product of AgCl the following ce...
Text Solution
|
Excess of AgCl is added to 0.1 M solution of KBr at 298 K. Calculate t...
Text Solution
|
The emf of the cell Cu|underset(a=0.1)(CuSO(4))||underset(x)(CuSO(4))|...
Text Solution
|
The cell, Pt|H(2)" (1 atm)"||H^(+) (pH=x)| normal calomel electrode,...
Text Solution
|
The standard reduction potential for Cu^(2+)//Cu is +0.34 V. Calculate...
Text Solution
|
The standard free enrgy change for the reaction, H(2)(g) +2AgCl(s) r...
Text Solution
|
For the reaction, Fe^(3+)+3e^(-) hArr Fe, E^(@) is -0.036 volt and the...
Text Solution
|
The standard reduction potential at 25^(@)C of the reaction 2H(2)O+2e^...
Text Solution
|
calculate the emf of the following cell: Pt(H(2)" 1 atm")|CH(3)CH(2)...
Text Solution
|
Calculate equilibrium constant for I(2)+I^(-) hArr I(3)^(-) at 298...
Text Solution
|
A lead storage battery has initially 200 g of lead and 200 g of PbO(2)...
Text Solution
|
Zn(s)+2AgCl(s) hArr ZnCl(2) (0.555 M)+2Ag(s) E(0^(@)C)=1.015" volt"(...
Text Solution
|
Calculate the equilibrium constant for the reaction, 2Fe^(3+) + 3I^(...
Text Solution
|
Electrolysis of a solution of MnSO(4) in aqueous sulphuric acid is a m...
Text Solution
|
Calculate the number of kWh of electricity is necessary to produce 1 ...
Text Solution
|
What will be the value of a for a 0.001 M aqueous NH(3) solution ? [...
Text Solution
|
A weak monobasic acid is 5% dissociated in 0.01 mol dm^(-3) solution. ...
Text Solution
|
1.05 g of a lead ore containing impurity of Ag was dissolved in quanti...
Text Solution
|
calculate E^(@) of the following half -cell reaction at 298 K: Ag(NH...
Text Solution
|
For the electrochemical cell, Mg(s)|Mg^(2+) (aq. 1M)||Cu^(2+) (aq. 1...
Text Solution
|