A simple model for a concentration cell involving a metal `M` is
`M(s)|M^(o+)(aq,0.05 ` molar`)||M^(o+)(aq,1` molar`)|M(s)`
For the abov electrolytic cell, the magnitude of the cell potential is `|E_(cell)|=70mV.`
For the above cell
(a)`E_(cell)lt0,DeltaGgt0`
(b)`E_(cell)gt0,DeltaGlt0`
(c)`E_(cell)lt0,DeltaG^(c-)gt0`
(d)`E_(cell)gt0,DeltaG^(c-)lt0`

A simple model for a concentration cell involving a metal M is M(s)|M^(o+)(aq,0.05 molar )||M^(o+)(aq,1 molar )|M(s) For the abov electrolytic cell, the magnitude of the cell potential is |E_(cell)|=70mV. If the 0.05 molar solution of M^(o+) is replaced by a 0.0025 molar M^(o+) solution, then the magnitude of the cell potential would be (a) 35mV (b) 70mV (c) 140mV (d) 700mV

If the 0.05 molar solution of M^+ is replaced by a 0.0025 molar solution, then the magnitude of the cell potential would be ( Ecell = 70mV) :

Under what condition is E_("cell")^(@)=0 or Delta_(r)G=0 ?

The logarithm of the equilibriium constant of the cell reaction corresponding to the cell X(s)|x^(2+)(aq)||Y^(+)(aq)|Y(s) with standard cell potential E_(cell)^(@)=1.2V given by

Consider the following reaction, Zn(s)+Cu^(2+) (0.1 M) rarr Zn^(2+) (1 M)+Cu(s) above reaction, taking place in a cell, E_("cell")^(@) is 1.10 V. E_("cell") for the cell will be (2.303 (RT)/(F)=0.0591)

For the net cell reaction of the cell Zn(s) |Xn^(2+) ||Cd^(2+) |Cd(s) DeltaG^(@) in Kilojoules at 25^(@)C is (E_(cell)^(@) = 0.360 V) :-

A voltaic cell is set up at 25^(@)C with the following half cells : Ag^(+) (0.001M) | Ag and Cu^(2+)(0.10 M)|Cu What would be the voltage of this cell ? (E_("cell")^(@) = 0.46 V)

What is the sign of DeltaG^(Theta) and the values of K for an electrochemical cell for which E^(Theta)underset(cell) = 0.80volt ?

Assertion: In cell Current stops flowing when E_("cell") = 0. Reason: Equilibrium of the cell reaction is attained

Represent the cell in which following reaction takes place : Mg(s)+2Ag^(o+)(0.0001M)rarr Mg^(2+)(0.130M)+2Ag(s) calculate its E_(cell) if E^(c-)._(cell)=3.17V.