A chemical reaction is a process that converts reactants to products. Let us check out what this reaction has to offer in this case.
KIO3 (potassium iodate) is an ionic chemical compound composed of K+ ions and IO3– ions. This is sometimes used to iodize table salt in order to prevent iodine deficiency. HF is a chemical compound that contains fluorine. It can exist in the form of a colorless gas, a fuming liquid, or a dissolved solid in water.
The fascinating article will investigate the reaction of acid and oxide, as well as properties such as reaction enthalpy and intermolecular forces.
What is the product of HF and KIO3?
The reaction between HF and KIO3 yields Iodic acid (HIO3) and Potassium fluoride (KF) respectively.
- HF + KIO3 → HIO3 + KF
What type of reaction is HF + KIO3?
HF + KIO3 is a double-displacement reaction. This reaction is defined by the general scheme below:
- AB + MD → AD + BM
- HF + KIO3 → HIO3 + KF
- The reaction species (HF and HIO3) can form ionic or covalent bonds.
- The term double decomposition is used when ligand or ion exchange occurs in the solid state of the reactant (HIO3 and HF).
How to balance HF + KIO3?
The reaction HF + KIO3 is balanced in the steps outlined.
- HF + KIO3 → HIO3 + KF
- Consider the equation following the free radical substitution reaction to balance the HF + HIO3 reaction equation
- Count how many F, K, I, O and H atoms there are on each side of the chemical equation.
- To balance the equation, simply change the coefficients or the numbers preceding the atoms or compounds.
- This reaction equation has an equal number of atoms on both sides. Therefore, this equation is already balanced.
HF + KIO3 net ionic equation
No net ionic equation for the HF + KIO3 reaction, it can be explained by these steps:
- Determine each substance’s phase (for gas=g, for liquid=l, for solid/non-soluble=s, for aqueous/soluble=aq).
- HF (aq) + KIO3 (aq) → HIO3 (aq) + KF (aq)
- Prepare a list of all the soluble ionic compounds and their corresponding ions.
- H+(aq) + F–(aq) + K+(aq) + IO3–(aq) → H+(aq) + IO3–(aq) + K+(aq) + F–(aq)
- Ions appearing on both the reactant and product sides of the ionic equation must be eliminated.
- So here there is no reaction as all of the ions are spectator ions.
HF + KIO3 conjugate pairs
HF + KIO3 conjugate pairs will be the associated de-protonated and protonated forms of that specific species in the reaction, which are listed below-
- F- is the conjugate base of HF
- KIO3 does not have conjugate pairs as it does not consist of hydrogen atoms.
HF and KIO3 intermolecular forces
The intermolecular forces in the HF + KIO3 reaction are as follows:
- The three intermolecular forces that hold HF molecules together are hydrogen bonding, dipole-dipole interaction, and London dispersion forces.
- The strong electrostatic force, ionic interaction, and coulumbic force are all present in KIO3.
Is HF + KIO3 a buffer solution?
HF + KIO3 does not produce a buffer solution. Any two acid/base combinations cannot be combined to form a buffer.
Is HF + KIO3 a complete reaction?
The HF + KIO3 reaction is complete because once equilibrium is reached, all products are formed.
Is HF + KIO3 an exothermic or endothermic reaction?
The HF + KIO3 reaction is endothermic. When a strong acid is combined with weak acid, a reaction occurs that results in the formation of salts, and no heat are released.
Is HF + KIO3 a redox reaction?
HF + KIO3 is not a redox reaction. Because electrons are not transferred between the two reactants involved in this reaction. As a result, there is no change in the oxidation states of the reacting species.
Is HF + KIO3 a precipitation reaction?
HI + KIO3 is not a precipitation reaction since no precipitate is generated and the product formed (HIO3) is soluble in water.
Is HF + KIO3 reversible or irreversible reaction?
HF + KIO3 is an irreversible reaction. Because the formed product (HIO3) is soluble in water, it cannot be recovered.
Is HF + KIO3 displacement reaction?
HF + KIO3 is a double-displacement reaction. In these reactions, the radicals or ions of the two reacting compounds are exchanged to form two new compounds.
Conclusion
The resulting HIO3 is one of the most stable oxo-acids and can be used to standardize solutions of both weak and strong bases using methyl red or methyl orange as the indicator.
Hi … I’m Saina Naushad. I completed my Masters in science with a specialization in Chemistry. I worked with advanced research techniques during my science studies and possessed deep knowledge and expertise in different chemistry topics. I want to help learners better understand advanced Chemistry concepts by sharing my knowledge and skills. please reach out to me on LinkedIn.