15 Facts on H2SO3 + Fe(OH)3: What, How To Balance & FAQs

Ferric hydroxide [Fe(OH)₃] is a transition metal base and it reacts with sulfurous acid. Let us discuss the products obtained from the reaction between Fe(OH)₃ and H₂SO_3.

H₂SO₃ and Fe(OH)₃ react with each other and form ferric sulfite [Fe₂(SO₃)₃] and water. Fe(OH)₃ is a weak base and H₂SO₃ is also a weak acid. They undergo a neutralization reaction to form salt and water.

This article focuses on the products, enthalpy change, type, balancing method, conjugate pairs, intermolecular forces, and some more relevant topics of the reaction.

What is the product of H₂SO₃ and Fe(OH)₃?

Ferric hydroxide, Fe(OH)₃ reacts with the weak acid, H₂SO₃, and produces ferric sulfite [Fe₂(SO₃)₃] and water (H₂O).

2Fe(OH)₃ (aq) + 3H₂SO₃ (aq) =  Fe₂(SO₃)₃ (aq) + 6H₂O (l)

What type of reaction is H₂SO₃ + Fe(OH)₃?

The reaction between H₂SO₃ + Fe(OH)₃ is one type of-

• Acid-base reaction or neutralization reaction.
• Double displacement reaction or Metathesis reaction
• Exothermic reaction
• Irreversible reaction

How to balance H₂SO₃ + Fe(OH)₃?

The following steps should be followed to balance a chemical reaction-

• Write the unbalanced chemical equation first using a right arrow sign as it is not balanced yet. Fe(OH)₃ (aq) + H₂SO₃ (aq) → Fe₂(SO₃)₃ (aq) + H₂O (l)
• The mole numbers of each of the reacting elements should be determined on the reactant and product side.

• To balance both sides (reactant and product) we have to multiply 2 with the mole number of Fe(OH)₃, 3 with H₂SO₃ on the reactant side, and 6 with the mole number of H₂O on the product side.
• Therefore, the balanced equation will be – 2Fe(OH)₃ (aq) + 3H₂SO₃ (aq) =  Fe₂(SO₃)₃ (aq) + 6H₂O (l)

H₂SO₃ + Fe(OH)₃ Titration

The titration between H₂SO₃ + Fe(OH)₃ is not possible because H₂SO₃ is a weak acid and Fe(OH)₃ is a weak base. The titration between a weak acid and a weak base is not possible because the equivalence point cannot be detected with accuracy due to not getting any sharp change in the titration curve.

H₂SO₃ + Fe(OH)₃ Net Ionic Equation

The net ionic equation of the chemical reaction H₂SO₃ + Fe(OH)₃ is–

2Fe³⁺ (aq) + 3OH^– (aq) + 6H⁺  + 3SO₃^2- (aq) =  2Fe³⁺(aq) + 3SO₃^2- (aq) + 6H₂O (l)

H₂SO₃ + Fe(OH)₃ Conjugate Pairs

The conjugate pairs (pair of compounds differ by one proton) equation of H₂SO₃ + Fe(OH)₃  is-

• The conjugate pair of  H₂SO₃ is HSO₃^–
• The conjugate pair of H₂O is OH^–

H₂SO₃ + Fe(OH)₃ Intermolecular Forces

The intermolecular forces act on H₂SO₃ + Fe(OH)₃  are-

• The electrostatic force of attraction is working in Fe(OH)_3. In the lattice of ferric hydroxide, the ferric ion (Fe³⁺), and hydroxyl ion (OH^–) are attracted by each other by this strong interionic Columbic force.
• Being a covalent compound, dipole-dipole interaction and London dispersion forces are present in H₂SO₃. It can also form a very strong intermolecular hydrogen bonding with water molecules as well as itself.
• One of the products, ferric sulfite is ionic, and water is a covalent molecule. Therefore, the above intermolecular forces are also present between them.

H₂SO₃ + Fe(OH)₃ Reaction Enthalpy

The enthalpy of the reaction H₂SO₃ + Fe(OH)₃ are written below-

Is H₂SO₃ + Fe(OH)₃ a buffer solution?

H₂SO₃ + Fe(OH)₃  is not a buffer solution because it is not a mixture of either a weak acid and its conjugate base (CH₃COOH and CH₃COONa, acidic buffer) or a weak base and its conjugate acid (NH₄OH and NH₄Cl, basic buffer). In this mixture, H₂SO₃ is a weak acid, and Fe(OH)₃  acts as a weak base.

Is H₂SO₃ + Fe(OH)₃ a complete reaction?

Only H₂SO₃ + Fe(OH)₃  cannot be a complete reaction because it is only the reactants written here. If the actual products which are water and ferric sulfite are also written along with the reactants then it will be considered a complete reaction. Therefore, the complete reaction is written below-

2Fe(OH)₃ (aq) + 3H₂SO₃ (aq) = Fe₂(SO₃)₃ (aq) + 6H₂O (l)

Is H₂SO₃ + Fe(OH)₃ an exothermic or endothermic reaction?

H2SO3 + Fe(OH)3 is considered to be an exothermic reaction because the enthalpy of the neutralization is always exothermic. The energy released due to the formation of water molecules is greater than the energy absorbed for the progress of the reaction.

Is H₂SO₃ + Fe(OH)₃ a redox reaction?

H₂SO₃ + Fe(OH)₃ is not a redox reaction because in this reaction no electron transfer is taking place. Therefore, there is no change in the oxidation state of Fe, H, O, and S. All the elements maintain their oxidation state throughout the reaction.

Is H₂SO₃ + Fe(OH)₃ a precipitation reaction?

H₂SO₃ + Fe(OH)₃ is not a precipitation reaction because none of the two products (ferric sulfite and water) are obtained as a precipitate after the completion of the reaction. The product, ferrous sulfite [Fe₂(SO₃)₃] is completely soluble in water. It is rather a displacement reaction.

Is H₂SO₃ + Fe(OH)₃ a reversible or irreversible reaction?

H₂SO₃ + Fe(OH)₃ is an irreversible reaction because the product side is more stable than the reactant side. Besides that, it is a neutralization reaction, and all the neutralization reaction becomes irreversible due to the formation of more stable salt and water.

Is H₂SO₃ + Fe(OH)₃ displacement reaction?

H₂SO₃ + Fe(OH)₃ is a double-displacement reaction because each of the reacting chemicals is displaced by each other to form the products. In this reaction, Fe is displaced by hydrogen from ferric hydroxide whereas hydrogen is displaced by Fe from sulfurous acid.

Conclusion

Ferric hydroxide acts as an iron supplement in the living body and helps to cure iron deficiency anemia. Sulfurous acid also has different uses in the manufacture of fertilizers, dyes detergents, inorganic salts, etc.

Read more about following H2SO3 facts

Aditi Roy

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I am Aditi Ray, a chemistry SME on this platform. I have completed graduation in Chemistry from the University of Calcutta and post graduation from Techno India University with a specialization in Inorganic Chemistry. I am very happy to be a part of the Lambdageeks family and I would like to explain the subject in a simplistic way.
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