Will Fe (s) be oxidised to `Fe^(2+)` by reacting with 1M HCl?
`E_(Fe,Fe^(2+))^@=+0.44V`

How does Fe change to Fe^(2+) ?

Calculate the reduction potential for the following half cells at 25^@C Pt|Fe^(2+) (0.1M)-Fe^(3+) (0.01M), E_(Fe^(3+),Fe^(2+))^@=+0.77V

How does the acidified permangnate solution react with following:- Fe^(2+) .

At equimolar concentration of Fe^(2+) and Fe^(3+) what must [Ag^(+)] be so that the voltage of the galvanic cell made from Ag^(+)//Ag and Fe^(3+)//Fe^(2+) electrodes equals zero? The reaction is Fe^(2+) + Ag^(+) hArr Fe^(3+) + Ag . Determine the equilibrium constant at 25^(@)C for the reaction. Given E_(Ag^(+)//Ag)^(@)= 0.799V and E_(Fe//Fe^(2+))^(@)= 0.771V

Calculate the cell potential for the following galvanic cell: The first electrode consists of Fe^(3+)|Fe^(2+) complete in which [Fe^(3+)]=1M and [Fe^(2+)]=[0.1M] The second electrode consists of MnO_4(-)|Mn^(2+) couple in acidic solution in which [MnO_4^-]=1times 10^-2 M, [Mn^(2+)]=1 times 10^-4 M and [H^+]=1 times 10^-3 M [E_(Fe^(3+),Fe^(2+))^@=0.771V, E_(MnO_4^-, Mn^(2+))^@=1.51V)

Assertion : Fe^(3+) can be used for coagulationof As_(2)S_(3) sol. Reason : Fe^(3+) reacts with As_(2)S_(3) to give Fe_(2)S_(3) .

Construct galvanic cells from the following pairs of half cells and calculate their emf at 25^@C Fe^(3+)(0.1M), Fe^(2+) (1M) (Pt) E_(Fe^(3+),Fe^(2+))=0.77 volt AgCl(s),Cl^- (0.001M) |Ag E_(AgCl,Cl^-)^@=0.22 volt

In the complex K_2Fe[Fe(CN)_6]