The correct option is
D Reactants: 3, 2; products: 3, 4
Steps for Balancing redox reactions:
- Identify the oxidation and reduction halves.
- Find the oxidising and reducing agent.
- Find the n-factor of oxidising and reducing agents.
- Cross multiply the oxidising and reducing agent with the simplified n-factor of each other.
- Balance the atoms other than oxygen and hydrogen.
- Balance oxygen atoms.
- Balance hydrogen atoms.
- Balance charge
formula used for the n-factor calculation,
nf=(|O.S.Product−O.S.Reactant|×number of atoms
Taking the given equation and following the above mentioned steps:
C2H5OH+Cr2O2−7→CH3COOH+Cr3+
Oxidation state of C in
C2H5OH=−2
Oxidation state of C in
CH3COOH=0
Oxidation state of Cr in
Cr2O2−7=+6
Oxidation state of Cr in
Cr3+=+3
Cleary,
C2H5OH is undergoing oxidation and
Cr2O2−7 is undergoing reduction.
using the formula of n-factor given above,
nf of
C2H5OH=4
nf of
Cr2O2−7=6
Ratio of oxidation states is 2:3.
Cross multiplying these with
nf of each other.
we get,
3C2H5OH+2Cr2O2−7→CH3COOH+Cr3+
Balancing the elements other than oxygen and hydrogen on both sides,
3C2H5OH+2Cr2O2−7→3CH3COOH+4Cr3+
Adding the
H2O to balance the oxygen,
LHS of the equation contains 17 oxygens while RHS contains only 6 oxygens, so adding 11
H2O to RHS.
3C2H5OH+2Cr2O2−7→3CH3COOH+4Cr3++11H2O
adding
H+ to balance hydrogen,
The LHS of the equation contains 18 hydrogens while RHS contains 34 hydrogens, so adding 16
H+ to LHS.
3C2H5OH+2Cr2O2−7+16H+→3CH3COOH+4Cr3++11H2O
Balance charge
total charge in reactant side=+12
total charge in product side=+12
3C2H5OH+2Cr2O2−7+16H+→3CH3COOH+4Cr3++11H2O
This is the final balanced equation.
So, required coefficients, reactants: 3, 2; products: 3, 4