The EMF of a Daniel cell at 298K is `E_(1)`. The cell is: `Zn(s)abs( ZnSO_(4) (0.01M)) | abs(CuSO_(4)(1.0M)) Cu(s).` When the concentration of `ZnSO_(4)` is 1.0 M and that of `CuSO_(4)` is `0.01` M the emf changes to `E_(2)`. What is the relationship between `E_(1) and E_(2)`?

The emf of a Daniell cell at 298 K is E_(1) Zn|ZnSO_(4)(0.01 M)||CuSO_(4)(1.0M)|Cu When the concentration of ZNSO_(4) is 1.0 M and that of CuSO_(4) is 0.01 M , the emf changed to E_(2) . What is the relationship between E_(1) and E(2) ?

For the following cell, Zn(s)|ZnSO_(4)(aq)||CuSO_(4)(aq)||Cu(s) When the concentration of Zn^(2+) is 10 times the concentration of Cu^(2+) , the expression for DeltaG (in J "mol"^(-1) ) [F is Faraday constant, R is gas constant] T is temperaure, E^(@)("cell")=1.1V

Calculate the EMF of a Daniel cell when the concentartion of ZnSO_(4) and CuSO_(4) are 0.001M and 0.1M respectively. The standard potential of the cell is 1.1V .

Find the emf of the cell Zn(s)|Zn^(+2)(0.01 M)|KCI "saturated" |Zn^(+2)(1.0 M)|Zn(s)

Find the emf of the cell Zn(s)|Zn^(+2)(0.01 M)|KCI "saturated" |Zn^(+2)(1.0 M)|Zn(s)

EMF of the cell Zn ZnSO_(4)(a =0.2)||ZnSO_(4)(a_(2))|Zn is -0.0088V at 25^(@)C . Calculate the value of a_(2) .

The electrode potential of electrode M(s) rightarrow M^(n+) (aq) (2M) + ne^(-) at 298 K is E_(1). When temperature is doubled and concentration is made half, then the electrode potential becomes E_(2) . Which of the following represents the correct relationship between E_(1) and E_(2) ?

The emf of cells Zn| ZnSO_(4)||CuSO_(4), Cu" at "25^(@)C is 0.03 V and temperature coefficient of emf is 1.4 xx 10^(-4) V per degree. Calculate the heat of reaction for the change taking place inside the cell.

For a cell Ag(s)|AgNO_(3)(0.01M)||AgNO_(3)(1.0M)|Ag(s) (i). Calculate the e.m.f. of the cell at 25^(@)C (ii). Write the net cell reaction. (iii). Will the cell generate e.m.f when two concentrations become equal?

The EMF of the cell : Ag|Ag_(2)CrO_(4)(s),K_(2)CrO_(4)(0.1 M)||AgNO_(3)(0.1M)||Ag is 206.5mV. Calculate the solubility of Ag_(2)CrO_(4) in 1M Na_(2)CrO_(4) solution.