The correct option is
A 1, 4, 2, 2
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 n-factor of each other.
- Balance the atoms other than oxygen and hydrogen.
- Balance oxygen atoms.
- Balance hydrogen atoms.
For basic medium:
If x oxygens are less on one side than the other side add x
H2O units to that side. As soon as we add x
H2O units for balancing oxygen, we add generally 2x (or whatever suitable)
H+ ions on the opposite side to balance hydrogen.Then after that we add equal (equal to number of
H+ added) number of
OH− ions to the both sides and combine
H+ and
OH− ions to form
H2O. Then we cancel
H2O which is common to both sides and which can be eliminated thus finally
OH− is left on one side and the equation is balanced. Then we can verify whether the equation is balanced or not by checking the balance of charge on both sides.
formula used for the n-factor calculation,
nf=(|O.S.Product−O.S.Reactant|×number of atoms Taking the raw form of given equation and following the above mentioned steps:
Tl2O3(s)+NH2OH(aq)→TlOH(s)+N2(g) Oxidation state of Tl in
Tl2O3=+3 Oxidation state of Tl in
TlOH=+1 Oxidation state of N in
NH2OH=−1 Oxidation state of N in
N2=0 Cleary,
N is undergoing oxidation and
Tl is undergoing reduction.
using the formula of n-factor given above,
nf of
Tl2O3=4 nf of
NH2OH=1 Cross multiplying these with
nf of each other.
we get,
Tl2O3(s)+4NH2OH(aq)→TlOH(s)+N2(g) Balancing the elements other than oxygen and hydrogen on both sides,
Tl2O3(s)+4NH2OH(aq)→2TlOH(s)+2N2(g) Adding the
H2O to balance the oxygen,
As the LHS of the equation contains 7 oxygens while RHS contains only 2 oxygens, adding 5
H2O to RHS.
Tl2O3(s)+4NH2OH(aq)→2TlOH(s)+2N2(g)+5H2O After this when we observe the equation is balanced already. No need to follow the further steps.
So, the value of w, x, y, z is 1, 4, 2, 2 respectively.