If the temperature coefficient of `EMF `if `-0.125V K^(-1), DeltaS` for the given cell at `25^(@)C` is `:`
`Fe|Fe^(2+)(aq)||Cd^(2+)(aq)|Cd`

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 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:

A 1.0 M solution of `Cd^(2+)` is added to excess iron and the system is allowed to reach equillibrium. What is the concentration of `Cd^(2+)` ?
`Cd^(2+)(aq)+Fe(s)toCd(s)+Fe^(2+)(aq), E^(@)=0.037`

Calculate the equilibrium constant for the reaction : Fe(s)Cd^(2+)(aq)harrFe^(2+)(aq)+Cd(s) ("Given" E_(cd^(2+)//Cd)^(@)=-0.40 V, E_(Fe^(2+)//Fe)^(@)=-0.44 V)

The standard electromitive force of the cell
`Fe|Fe^(2+)(aq)||Cd^(2+)|Cd` is 0.0372 V
The temperature coefficient of e.m.f. is `-0.125VK^(-1)`. Calculate the quantities `triangleG,triangleH^(@)` and `triangleS^(@)` at `25^(@)C`

Calculate the emf of the cell, Cd|Cd^(2+)(0.001M)||Fe^(2+)(0.6M)|Fe at 25^(@)C . The standard reduction potential of Cd//Cd^(2+) and Fe//Fe^(2+) electrodes are -0.403 and -0.441 volt respectively.

Calculate the standard cell potentails of the galvanic cells in which the following reactions take place.
(a) `" " 2Cr(s)+3Cd^(2+) to 2Cr^(3+)(aq)+3Cd(s)`
Given `E_(Cr^(3+)//Cr)^(@)=-0.74" V" , E_(Cd^(2+)//Cd)^(@)=-0.40" V"`
(b) `" " Fe^(2+)(aq)+Ag^(+)(aq) to Fe^(3+)(aq)+Ag(s)`
Gievn `E_(Ag^(+)//Ag)^(@)=0.80" V" ,E_(Fe^(3+)//Fe^(2+))^(@)=0.77 " V"`
Also calculate `DeltaG^(@)` and equilibrium constant for the reaction.

निम्न अभिक्रिया के लिये साम्य स्थिरांक की गणना कीजिए -
`Fe(s) + Cd^(2+)(aq) hArr Fe^(2+)(aq) + Cd(s)`
`E^(0)_(Cd^(2+)//Cd) = -0.40 V, E^(0)_(Fe^(2+)//Fe) = -0.44 V`

The standard electromotive force of the cell
`Fe|Fe_((aq))^(2+) ||Cd_((aq))^(2+) |Cd`
If the temperature co-officlent of emf `-0.125 VK^(-1)`, the vàlue of `triangleS^(@)" at "25^@C` would be

निम्नलिखित अपचयन अभिक्रियाओं के `E^(0)` मान इस प्रकार हैं -
`Fe^(3+)(aq) + e^(-) rarr Fe^(2+)(aq) , E^(0) = 0.771V`
`Fe^(2+)(aq) +2e^(-) rarr Fe(s) , E^(0) = -0.447V`
अभिक्रिया, Fe3+(aq) + 3e^(-) rarr Fe(s) ` के लिए मुक्त ऊर्जा परिवर्तन क्या होगा?

প্রদত্ত বিক্রিয়াটির ক্ষেত্রে সাম্যধ্রুবকের মান নির্ণয় : `Fe(s)+Cd^(2+)(aq) iff Fe^(2+)(aq)+Cd(s)` [প্রদত্ত: `E_(Cd^(2+)|Cd)^0` = -0.40V এবং` E_(Fe^(2+)|Fe)^0` = -0.44V ]

Calculate the standard cell potentials of galvanic cell in which the following reactions take place:
(i) `2Cr (s) + 3Cd^(2+) (aq) to 2Cr^(3+) (aq) + 3Cd`
(ii) `Fe^(2+)(aq) + Ag^(+)(aq) to Fe^(3+)(aq) +Ag (s)`
Given: `E_(Cr^(3+),Cr) = -0.74 V, E_(Cd^(2+),Cd)^(@) = -0.04 V, E_(Ag^(+),Ag) = 0.80 V, E_(Fe^(3+),Fe^(2+))^(@) = 0.77 V`.
Calculate the `Delta_(r)G^(@)` and equilibrium constant of the reactions.

Calculate the equilibrium constant for the following reaction at 25^@C . Ag^(+)(aq) + Fe^(2+)(aq) to Ag(s) + Fe^(3+)(aq) The standard emf of the corresponding voltaic cell is 0.03 V.

If the temperature coefficient of EMF if -0.125V K^(-1), DeltaS for the given cell at 25^(@)C is : Fe|Fe^(2+)(aq)||Cd^(2+)(aq)|Cd 1) -26.125 k J K^(-1) 2) -24.125k J K^(-1) 3) -22.125 kJ K^(-1) 4) -20.125 k J K^(-1)