15 Facts on HI + KClO3: What, How To Balance & FAQs

This reaction comprises a strong acid HI with potassium chlorate (KClO₃). Let us examine some more key points of this reaction in detail.

HI belongs to the category of hydrogen halide and has atomicity 2. It’s very common to use in synthesizing iodine, organically and inorganically, whereas KClO₃ comprises three elements; potassium, chlorine and oxygen. KClO₃ acts as a strong oxidizing agent.

While balancing a complete skeletal equation, a few more points, such as reaction enthalpy etc., will be discussed in this article.

What is the product of HI and KClO₃

Potassium chloride(KCl), Iodide(I₂), and water(H₂O) are the three products that are formed when HI react with KClO₃.

KClO₃+ 6HI → KCl + 3I₂+ 3H₂O

What type of reaction is HI + KClO₃

The reaction between HI and KClO₃ is a double displacement reaction because the ions of both reactants mutually exchange their places to form compounds.

How to balance HI + KClO₃

• Write the skeletal equation.
• Write the number of atoms of each element that is present in the equation on both sides ( reactant and product side)

Elements	Number of atoms on reactant side	Number of atoms on product side
K	1	1
Cl	1	1
H	1	2
I	1	2
O	3	1

• Equalize the number of atoms of hydrogen, oxygen, and Iodine.
• Hence, the balanced chemical equation is
• KClO₃+ 6HI → KCl + 3I₂+ 3H₂O

HI + KClO₃ titration

There is no feasible result for the titration of HI and KClO₃ because HI is the strong acid, whereas KClO₃ is the potassium salt.

HI + KClO₃ net ionic equation

The net ionic equation for HI and KClO₃ is : ClO^3- + H⁺ +I^–→ K⁺ +Cl^– + I₂+ H₂O

• Write the complete balanced equation.
• KClO₃+ 6HI → KCl + 3I₂+ 3H₂O
• Write the physical state of the compound along with them.
• KClO₃(aq)+ 6HI(aq) → KCl (aq)+ 3I₂(s)+ 3H₂O(l)
• Break the compounds which are aqueous in nature and leave the solids and liquids as they are.
• K⁺ +ClO^3- + H⁺ +I^–→ K⁺ +Cl^– + I₂+ H₂O
• Cross out the ions which are the same on both sides.
• ClO^3- + H⁺ +I^–→ K⁺ +Cl^– + I₂+ H₂O
• The remaining equation is the net ionic equation.
• ClO^3- + H⁺ +I^–→ K⁺ +Cl^– + I₂+ H2O

HI + KClO₃ conjugate pairs

The respective conjugate pairs of HI and KClO₃ are:

• The conjugate base pair for the strong acid HI is I^–
• The conjugate pair of KClO₃ is ClO^3-.

HI and KClO₃ intermolecular forces

The intermolecular forces which are present within the molecules of HI and KClO₃ are:

• Dispersion forces, dipole-dipole forces, and hydrogen bonding are present between the molecules of HI.
• KClO₃ has ionic forces between its particles hence making it a polar compound.

HI + KClO₃ reaction enthalpy

The reaction enthalpy of HI and KClO₃ is -735.98 kJ.

Is HI + KClO₃ a buffer solution

HI and KClO₃ is not a buffer solution because HI is a strong acid, and it will ionize completely, hence would not help in changing the pH.

Is HI + KClO₃ a complete reaction

The reaction of HI with KClO₃ is complete because two products take place in a double displacement reaction to form three stable products.

Is HI + KClO₃ an exothermic or endothermic reaction

The reaction between HI and KClO₃ is exothermic in nature because, in this reaction, the enthalpy of reactants is greater than the enthalpy of the products. 

Is HI + KClO₃ a redox reaction

The reaction between HI and KClO₃ is a redox reaction, as explained below:

• During Reduction : Cl^V + 6 e^– → Cl^-I 
• During oxidation : 6 I^-I – 6 e^– → 6 I⁰
• In the reaction between HI and KClO₃, HI acts as a reducing agent, whereas KClO₃ acts as an oxidizing agent.

Is HI + C a precipitation reaction

HI and KClO₃ is not precipitation reaction because the products formed are completely soluble. Hence no residue is left in the reaction.

Is HI + KClO₃ reversible or irreversible reaction

The reaction between HI and KClO₃ is irreversible as all the compounds are completely dissolvable. Hence the products will not go back to the reactant state.

Is HI + KClO₃ displacement reaction 

The reaction between HI and KClO₃ is a double displacement reaction due to their mutual exchange of ions.

Conclusion

The product formed, KCl, is an ionic salt with a strong bond between potassium and chlorine, and diiodine is an iodine element with atomicity 2. This molecule has no charge and has a covalent bond between its molecules.