From the following information, calculate the solubility product of `AgBr.`
`AgBr(s)+e^(-) rarr Ag(s) +Br^(c-)(aq), " "E^(c-)=0.07V`
`Ag^(o+)(aq)+e^(-) rarr Ag(s)," "E^(c-)=0.80V`

In a simple electrochemical cell, the half cell reduction reaction with their standard electrode potentials are : Pb(s)-2e^(-) rarr Pb^(2+)(aq) , E^(@)= - 0.30 V Ag(s) -e^(-) rarr Ag^(+) (aq), E^(@)= + 0.80 V Which of the following reaction takes place ?

In the following half cell reactions, select the better reducing agent : Mg^(2+) + 2e^(-) rarr Mg, E^(@)= -2.37 V Fe^(3+) + 3e^(-) rarr Fe, E^(@) = -0.44 V

The standard reduction potential at 298 K for the following half cell reactions are given below Zn^(2+)(aq)+2e^(-) to Zn(s) " " E^(@)=-0.762V Cr^(3+)(aq)+3e^(-)toCr(s) " " E^(@)=-0.740V 2H^(+)(aq)+2e^(-) toH_(2)(g) " " E^(@)=0.0V Fe^(3+)(aq)+e^(-) toFe^(2+)(aq) " " E^(@)=0.77V . Which is the strongest reducing agent ?

Which one of the following will increase the volatage of the cell ? Sn(s) + 2Ag^(+)(aq) rarr Sn^(2+) (aq)+2Ag(s)

Calculate the equilibrium constant for the reaction Cu(s)+2Ag+(aq)rarrCu^(+2)(aq)+2Ag(s),E_("cell")^(@)=0.46V .

From the following data at 25^(@)C Cr^(3+)(aq.)+3e^(-)rarr Cr^(2+)(aq.) , E^(@)= -0.424V Cr^(2+)(aq.)+2e^(-) rarr Cr(s), " "E^(@)= -0.900V Find E^(@) at 25^(@)C for the reaction : Cr^(3+)+3e^(-) rarr Cr(s)

The electrode potential of some half cell reactions are : Cl_(2) + 2e^(-) rarr 2 Cl^(-)(aq), E^(@) = + 1.36 V O_(2)+2H^(+)(aq) + 2e^(-) rarr H_(2)O_(2) (aq) , E^(@) = + 0.65 V F_(2)+2e^(-) rarr 2F^(-)(aq), E^(@) = + 2.87 V H_(2)O+ 2e^(-) rarr H_(2)(g) + 2OH^(-) (aq), E^(@) = - 0.83 V The strongest oxidising agent is :

The standard reduction potential at 298 K for the following half cell reaction are Zn^(2)(aq) + 2e rarr Zn(s)E^@ = -0.762 V Cr^(3+)(aq) + 3e rarr Cr(s)E^@ = 0.740 V 2H^+(aq)+ 2e rarr H_2(g)E^@ = 0.0V F_2(g) + 2e rarr 2F^(-) (aq)E^@ = 2.87 V Which of the following is strongest reducing agent ?

Consider the following half reactions : PbO_(2)(s)+4H^(o+)(aq)+SO_(4)^(2-)+2e^(-)rarrPbSO_(4)(s)+2H_(2)O" "E^(c-)=+1.70V PbSO_(4)(s)+2e^(-)rarr Pb(s)+SO_(4)^(2-)(aq)" "E^(c-)=-0.31V a. Calculate the value of E^(c-) for the cell. b. Calculate the voltage generated by the cell if [H^(o+)]=0.10M and [SO_(4)^(2-)]=2.0M c. What voltage is generated by the cell when it is at chemical equilibrium ?