Use the data to answer the following and also justify giving rason: `{:(," "Cr," "Mn," "Fe," "Co),(E_(M^(2+)//M)^0,-0.91,-1.18,-0.44,-0.28),(E_(M^(3+)//M^(2+))^0,-0.41,+1.57,+0.77,+1.97):}`
( a) Which is a stronger redusing agent in aqueous medium `Cr^(2+) or Fe^(2+)` and why ?
( b) Which is the most stable ion in +2 oxidartion and why ?

Given that E_(Fe^(2+)//Fe)^(.)=-0.44V,E_(Fe^(3+)//Fe^(2+))^(@)=0.77V if Fe^(2+),Fe^(3+) and Fe solid are kept together then

The E_(M^(3+)//M^(2+))^(@) values for Cr, Mn Fe and Co are -0.41, + 1.57, + 0.77 and +1.97V respectively. For which one of these metals the change in oxidation state form +2 to +3 is easiest ?

The E_(M^(3+)//M^(2+)^@ values for Cr , Mn, Fe and Co are 0.41, + 1.57 , + 0.77 and +1, 97 V respectively. For which one of these metals the change ub oxidation state from =2 to 3 is easiest :

The E^(o)""_(M^(3+)//M^(2+)) values for Cr, Mn, Fe and Co are –0.41, +1.57,+ 0.77 and + 1.97 V respectively. For which one of these metals the change in oxidation state from +2 to +3 is the easiest?

E^(@)_(Na^(+)//Na)=-2.71V E^(@)_(Mg^(+2)//Mg)=-2.37V E^(@)_(Fe^(+2)//Fe)=-0.44V, E^(@)_(Cr^(+)//Mg)=-0.41V Based on this date which is th poorest reducing agent?

For (M^(2+))/(M) and (M^(3+))/(M^(2+)) systems the E^(ɵ) values for some metals are as follows. (Cr^(2+))/(Cr) -0.9V, (Cr^(3+))/(Cr^(2+)) -0.4V (Mn^(2+))/(Mn)-1.2V,(Mn^(3+))/(Mn^(2+)) +1.5V (Fe^(2+))/(Fe) -0.4, (Fe^(3+))/(Fe^(2+)) +0.8V Use this data comment upon: (i). The stability of Fe^(3+) in acid solutio as compared to that of Cr^(3+) or Mn^(3+) and ltbtgt (ii). The case with which iron can be oxidised as compared to a similar process for either chromium or manganese metal.

(i) On the basis of the standard electrode potential values stated for acid solutions, predict whether Ti^(4+) species may be used to oxidise Fe(II) to Fe(III) {:(Ti^(4+) + e^(-) to Ti^(3+), E^(@) = +0.01V), (Fe^(3+) + e^(-) to Fe^(2+), E^(@)= +0.77V):} (ii) Based on the data arrange Fe^(3+), Mn^(2+) " and " Cr^(2+) in the increasing order of stability of +2 oxidation state. (Give a brief reason) E_(Cr^(3+)//Cr^(2+))^(@) = -0.4V E_(Mn^(3+)//Mn^(2+))^(@) = +1.5V E_(Fe^(3+)//Fe^(2+))^(@) = +0.8V

For the following cell, calculate the emf: Al//Al^(3+) (0.01 M)"||" Fe^(2+) (0.02M)"|"Fe Given: E_(Al^(3+)//Al)^(Theta) = -1.66V, E_(Fe^(2+)//Fe)^(Theta)= -0.44V

Fe is reacted with 1.0M HCI.E^(@) for Fe//Fe^(2+) = +0.34 volt. The correct observation (s) regarding this reaction is/are:

Given E_(Cl_(2)//Cl^(-))^(@)=1.36V,E_(Cr^(3+)//Cr)^(@)=-0.74V E_("Cr_(2)O_(7)^(2-)//Cr^(3+))^(@)=1.33V,E_(MnO_(4)^(-)//Mn^(2+))^(@)=1.51V Among the following, the strongest reducing agent is