Discover The 15 Incredible Facts On H2SO4 + BeO Reaction

BeO is ionic and amphoteric in nature as it can react with acid and a base. H₂SO₄ king of all acids is known as the oil of vitriol. Let us see how the BeO reacts with the H₂SO₄.

BeO is insoluble in water due to its high lattice energy and can not conduct the electricity but can flow heat at a high rate, so it is a good thermal conductor.  Sulfur in H₂SO₄ is sp³ hybridized with a C₂ point symmetry group and tetrahedral shape. It is reactive to metals, ionizes 100 %, and acts as a battery acid.

In this article, we will discuss important facts about the chemical reactions of beryllia (BeO) and sulfuric acid (H₂SO₄) such as reaction enthalpy, the heat required, the product formed, the type of reaction, the type of intermolecular forces between their compounds, etc.

What is the product of H₂SO₄ + BeO

Beryllium Sulfate (BeSO₄) and water (H₂O) are produced by the reaction of H₂SO₄ + BeO.

BeO + H₂SO₄ → BeSO₄ + H₂O

What type of reaction is H₂SO₄ + BeO

H₂SO₄ + BeO falls under neutralization (acid – base), Double Displacement (Salt metathesis), redox, and exothermic reaction.

How to balance H₂SO₄ + BeO

BeO + H₂SO₄ → BeSO₄ + H₂O is already a balanced reaction because all atoms of each element are equal in number.

H₂SO₄ + BeO titration

The titration of H₂SO₄ is not valid against BeO.

H₂SO₄ + BeO net ionic equation

The net ionic equation of H₂SO₄ + BeO is as follows:

BeO (s) +2 H⁺ (aq) +SO₄^2– (aq) = BeSO₄ (s) + H₂O (l)

To get the net ionic equation for H₂SO₄ + BeO, we should follow the steps given below:

• Write the general balanced molecular equation.
• BeO + H₂SO₄ → BeSO₄ + H₂O
• Now the solubility equation for H₂SO₄ + BeO, is written by labeling the state or phase (s, l, g or aq) of each substance in the balanced molecular equation of H₂SO₄ + BeO.
• BeO (s) + H₂SO₄ (aq) → BeSO₄ (s) + H₂O (l)
• Break all aquatic soluble ionic substances into their corresponding ions to get the balanced ionic equation.
• BeO (s) +2 H⁺ (aq) +SO₄^2– (aq) = BeSO₄ (s) + H₂O (l)
• To get the net ionic equation, remove spectator ions from the reactant and product side of the balanced ionic equation. But spectator ions are not present in this reaction.
• Finally, the net ionic equation for H₂SO₄ + BeO, is:
• BeO (s) +2 H⁺ (aq) +SO₄^2– (aq) = BeSO₄ (s) + H₂O (l)

H₂SO₄ + BeO conjugate pairs

The conjugate pairs (compounds differ by one proton in their respective pair) in BeO + H₂SO₄ are:

• The conjugate base of H₂SO₄ acid is HSO₄^–.
• The conjugate base of H₂O is OH^–.
• BeO and BeSO₄ do not have their conjugate pairs because both compounds do not contain hydrogen atom that can remove as proton ion.

H₂SO₄ + BeO intermolecular forces

The intermolecular forces that work on H₂SO₄, BeO, BeSO₄, SO₂ and H₂O are-

• Dipole-dipole force, London dispersion force, and hydrogen bonding are present in H₂SO₄ molecules due to their polar and unsymmetrical nature.
• The electrostatic force of attraction is present in the ionic compound BeO.
• The electrostatic force of attraction is present in BeSO₄ due to its giant ionic structure.
• Hydrogen bonds, dipole-induced dipole forces, and London dispersion forces exist in H₂O due to their strong polar and ionic nature.

H₂SO₄ + BeO reaction enthalpy

The net enthalpy change of the reaction H₂SO₄ + BeO is -148.7 kJ/mol. The value is gained from the following mathematical calculation.

• ΔH°_f = ΣΔH°_f (products) – ΣΔH°_f (reactants) (kJ/mol)
• ΔH_f = [( -1197 ) +(-285.83) -((-599) +(-735.13 )] kJ/mol
• ΔH_f = -148.7 kJ/mol

Is H₂SO₄ + BeO a buffer solution

H₂SO₄ + BeO is not a buffer solution because H₂SO₄ is a strong acid and a buffer solution contains a weak acid and its conjugate base or a weak base and its conjugate acid.

Is H₂SO₄ + BeO a complete reaction

H₂SO₄ + BeO is a complete reaction because in this reaction H₂SO₄ and BeO are completely consumed and neutralized into the final product (BeSO₄, H₂O ) successfully.

Is H₂SO₄ + BeO an exothermic or endothermic reaction

H₂SO₄ + BeO reaction is an exothermic reaction because the net change of enthalpy is negative (i.e., ΔH_f < 0, -148.7 kJ/mol) where the -ve sign interprets the following facts about the reaction:

• 148.7 kJ/mol heat is released by the reactants H₂SO₄ and BeO due to the formation of less energetic acid BeSO₄. 
• Heat emission by H₂SO₄ and BeO rises the energy of surroundings and makes the products stable.

Is H₂SO₄ + BeO a redox reaction

H₂SO₄ + BeO is not a redox reaction because the oxidation state of each element in this reaction remains the same even after the completion of the reaction.

Is H₂SO₄ + BeO a prcipitation reaction

H₂SO₄ + BeO is a precipitation reaction because the completion of the reaction provides the BeSO₄ as the main product which is in a solid state and precipitated out from the reaction mixture through filtration. 

Is H₂SO₄ + BeO reversible or irreversible reaction

H₂SO₄ + BeO is an irreversible reaction because the products BeSO₄ and H₂O are stable so they do not need to react with each other to form reactants back.

Is H₂SO₄ + BeO displacement reaction

H₂SO₄ + BeO is a double displacement reaction because, in this reaction, sulfate ion (SO₄^2–) and oxide ion (O^2- ) exchange their places with each other to form new products, BeSO₄ and H₂O.

Conclusion

This article concludes that H₂SO₄ + BeO reaction is carried out through a double displacement reaction in which BeO acts as a base and H₂SO₄ as an acid. Reactants are completely neutralized through the emission of heat into the surroundings and formed more stable products.

Kavita Singhal

Hi, I am Kavita Singhal, Ph.D. in Chemical Sciences. My subject area of interest is Physical and Inorganic Chemistry with special emphasis on Electrochemistry, Polymer Chemistry, Nano Chemistry, Corrosion Study, Cyclic voltammetry, Supercapacitance, and Organometallic Chemistry.
I love to bring to my readers the foundational aspects of the subject and my articles are focused on the major areas of chemical sciences in an easy yet informative approach. Looking forward to getting connected through LinkedIn: