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 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

Write cell reaction of the following cells : Pt,H_2|H^+(aq)||Cd^(2+)(aq)|Cd

The emf of a standard Cd- cell is 1.018V at 25^@C . The temperature coefficient of the cell is -5.0 times 10^-5 Vk^-1 . Calculate Delta G, Delta H and Delta S for the cell reaction. Will the cell temperature change during operation?

Write cell representation for following cells Cd^(2+)(aq)+Zn(s)toZn^(2+)(aq)+Cd(s)

Write the cell formulation and calculate the standard cell potential of the galvanic cell in operation of which the reaction taking place is: 2Cr(s)+3Cd^(2+)(aq)to2Cr^(3+)(aq)+3Cd(s) Calculate Delta_(r)G^(@) for the above reaction. (Given: E_(Cr^(3+)//Cr)^(@)=-0.74V,E_(Cd^(2+)//Cd)^(@)=-0.40V,F=96500" "C" "mol^(-1) )

Using the standard electrode potentials given in the table predict if the reaction between the following feasible. (a) Fe^(3+)(aq) andI^(-)(aq) (b) Ag^(+)(aq) andCu(s) (c )Fe^3+ (aq) and Cu(s) Ag(s) and Fe^(3+) (aq) (Br_(2))(aq) and Fe^(2+)(aq) (d) Ag(s) and Fe^(3+)(aq) (e) Br_(2)(aq) and fe^(2+)(aq)

At 25^(@)C temperature the cell potential of a given electrochemical cell is 1.92 V Mg(s)|Mg^(2+)(Aq)x M||Fe^(2+)(aq)0.01 M |Fe(s) Given E_(Mg//mg^(2+))(Aq)=2.37 v E_(Fe//Fe^(2+))^(@)(Aq)=0.45 V Find the value of x