The `EMF` of the cell `:`
`Pt, H_(2)(1atm)|H^(o+)(aq)||AgCl|Ag` is `0.27` and `0.26V` at `25^(@)C`, and `35^(@)C` respectively. The heat of the reaction occuring inside the cell at `25^(@)C` is `………………….. kJ K^(-1)`

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

Calculate pH of the half cell : Pt,H_(2)(1 atm)|H_(2)SO_(4)" "E^(c-)=-0.3V

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 .

For the cell Zn|ZnCl_(2)(m)|AgCl,E is 1.24V at 25^(@)C and 1.260V at 35^(@)C of m=10^(-3) . Write down the cell reaction and calculate DeltaG, DeltaH, and DeltaS at 25^(@)C .

The pH of LHE in the following cell is : Pt, H_(2)(1atm)|H^(o+)(x M)||H^(o+)(0.1M)|H_(2)(0.1atm)Pt E_(cell)=0.295V .

The standard potential of a cell using the reaction +3HgO(s)+2(overset(c-)(O)H) (aq) is 0.489V at 25^(@)C . What is the equilibrium constant of the reaction ?

The standard emf of the cell, Cd(s) |CdCI_(2) (aq) (0.1M)||AgCI(s)|Ag(s) in which the cell reaction is Cd(s) +2AgCI(s) rarr 2Ag(s) +Cd^(2+) (aq) is 0.6915 V at 0^(@)C and 0.6753V at 25^(@)C . The DeltaH of the reaction at 25^(@)C is,-

The emf of the cell, Pt|H_(2)(1atm)|H^(+) (0.1M, 30mL)||Ag^(+) (0.8M)Ag is 0.9V . Calculate the emf when 40mL of 0.05M NaOH is added.

The emf of the following cell is 0.256 V at 25^@C and 0.2595 V at 35^@C. Calculate heat of reaction taking place at 25^@C. Pt(H_(2))|HCl(aq)||AgCl|Ag

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.