The standerd potential at `25^(@)` for the following Half rection is given :
`Zn^(2+)+2e^(-)toZn,E^(@)=-0.762 V`
`Mg^(2+)+2e^(-)toMg,E^(@)=-2.37 V`
When Zinc dust is added to the solution of `MgCl_(2)`.

Differentiate the following functions w.r.t.x : (e^(2x) - e^(-2x))/(e^(2x) + e^(-2x))

The E^(@) at 25^(@) C for the following reaction is 0.22 V. Calculate the equilibrium constant at 25^(@) C : H_(2)(g)+2AgCl(s)to2Ag(s)+2HCl(aq)

Given the folowing standerd electrode potentials, the K_(sp) for PbBr_(2) is : PbBr_(2)(s)+2e^(-)toPb(s)+2Br^(-)(aq), E^(@)=-0.248 V Pb^(2+)(aq)+2e^(-)toPb(s), E^(@)=-0.126 V

Consider the following standard electrode potentials and calculate the eqillibrium constant at 25^(@) C for the indicated disproportional reaction : 3 Mn^(2+)(aq)toMn(s)+2Mn^(3+)(aq) Mn^(3+)(aq)+e^(-)toMn^(2+)(aq), E^(@)=1.51 V Mn^(2+)(aq)+2e^(-)toMn(s), E^(@)=-1.185 V

calculate the value of equilibrium constant (K_f) for the reaction: Zn^(2+)(aq)+4OH^(-)(aq)iffZn(OH)_4^(2-)(aq) Given: Zn^(2+)(aq)+2e^(-)toZn(s0,E^(@)=-0.76 V Zn(OH)_4^(2-)(aq)+2e^(-)toZn(s)+4OH^(-)(aq),E^(@)=-1.36 V 2.303(RT)/F=0.06

Calculate DeltaG^(@) for the following cell: Fe|Fe^(2+)||Cu^(2+)|Cu . Given that: E^(@)(Cu^(2+)//Cu)=+0*34V,E^(@)(Fe^(2+)//Fe)=-0*44V.

For the following data at 25^@C Cr^(3+)(aq)+1barerarrCr^(2+)(aq),E^@=-0.424V , Cr^(2+)(aq)+2barerarrCr(s),E^@=-0.900V Find E^@ at 25^@ for the reaction: Cr^(3+)+3barerarrCr(s)

In a simple electrochemical cell, which is in the standard state, the half cell reactions with their appropriate reduction potentials are: Pb^(2+)(aq)+2barerarrPb(s) , (E^@=+0.13V) . Ag^(+)(aq)+barerarrAg(s) , E^@=+0.80V) What is the cell reaction for the cell?

Which of the following statements is correct? If E_(Cu^(2+)|Cu)^(@)=0.34V, E_(Sn^(2+)|Sn)^(@)=-0.136V "and"E_(H^+|H_2)^(@)=-0.0V