Al2(SO4)3 is a coagulating agent having a molar mass of 342.15 g/mol for anhydrous form and octadecahydrate 666.44 g/mol. Let us focus on the above reaction mechanism.
Al2(SO4)3 or aluminium sulfate is a white crystalline hygroscopic molecule that is soluble in diluted mineral acids. It is slightly acidic by the value of pH so it can be reacted with strong mineral acid. In Al2(SO4)3 molecule 3C-4e bond is present at the Al center and in a nitric acid covalent bond is present.
Al2(SO4)3 itself plays the role of catalyst so the reaction between HNO3 and Al2(SO4)3 did not require any catalyst or temperature. In this article, we will focus on the above reactions like enthalpy, redox reaction, intermolecular force, conjugate pairs, etc with an explanation in the following part of the article.
1. What is the product of HNO3 and Al2(SO4)3?
Al(NO3)3 and H2SO4 are formed as major products when HNO3 and Al2(SO4)3 are reacted together.
HNO3 + Al2(SO4)3 = Al(NO3)3 + H2SO4
2. What type of reaction is HNO3 + Al2(SO4)3?
HNO3 + Al2(SO4)3 reaction is an example of an acid formation reaction, double displacement reaction, and redox and precipitation reaction. Here, electrolytic salt and acid molecule are formed in the course of the reaction.
3. How to balance HNO3 + Al2(SO4)3?
HNO3 + Al2(SO4)3 = Al(NO3)3 + H2SO4 this reaction is not balanced yet, we have to balance the equation in the following way-
- First, we label all the reactants and products by A, B, C, and D as there are four different molecules obtained for this reaction and the reaction looks like this,
- A HNO3 + B Al2(SO4)3 = C Al(NO3)3 + D H2SO4
- Equating the coefficients for the same type of elements by rearranging them.
- After the rearrangement of coefficients of the same elements by their stoichiometric proportion, we get,
- H = A = 2D, N = A = 3C, O = 3A = 12B = 9C =4D = E, Al = 2B = C, S =3B = D.
- Using the Gaussian elimination and equating all the equations we get, A = 6, B = 1, C = 2, and D =3.
- The overall balanced equation will be,
- 6HNO3 + Al2(SO4)3 = 2Al(NO3)3 + 3H2SO4
4. HNO3 + Al2(SO4)3titration
To estimate the quantity of nitrate or sulfate, we can titrate Al2(SO4)3 and HNO3.
Apparatus used
We need a burette, conical flask, burette holder, volumetric flask, and beakers for this titration.
Titre and titrant
HNO3 versus Al2(SO4)3, HNO3 acts as a titrant taken in the burette and the molecule to be analyzed is Al2(SO4)3 taken in a conical flask.
Indicator
The whole titration is done in a mildly acidic medium where pH lies between 3-3.5 so the best suitable indicator will be bromophenol blue which gives perfect results for this titration at given pH.
Procedure
The burette is filled with standardized HNO3. Al2(SO4)3 is taken in a conical flask along with respective indicators. HNO3 is added dropwise to the conical flask and the flask is shaken constantly. After a certain time, when the endpoint arrives, the indicator changes its color and the reaction is done.
5. HNO3+ Al2(SO4)3 net ionic equation
The net ionic equation between HNO3 + Al2(SO4)3 is as follows,
H+(aq.) + NO3–(aq.) + Al3+(aq.) + SO42-(aq.) = Al3+(aq.) + NO3–(aq.) + 2H+(aq.) + SO42-(aq.)
- HNO3 will be ionized into H+ and nitrate as a counter ion as it is a strong electrolyte.
- Al2(SO4)3 dissociated into Al3+ and SO42- ions as it is strong electrolytes.
- In the product part Al(NO3)3 ionized into Al3+ and NO3–as it is a strong electrolyte.
- H2SO4 will be ionized into twice H+ and sulfate ions because the dissociation constant is very high as it is a strong electrolyte and acid as well.
6. HNO3+ Al2(SO4)3conjugate pairs
In the reaction, HNO3 + Al2(SO4)3 conjugate pairs will be the corresponding de-protonated and protonated form of that particular species which are listed below-
- Conjugate pair of HNO3 = NO3–
- Conjugate pair of SO42- = HSO4–
- Conjugate pair of HSO4– = H2SO4
7. HNO3 and Al2(SO4)3 intermolecular forces
HNO3 + Al2(SO4)3 has the following intermolecular forces,
- The intermolecular force present in HNO3 is the strong electrostatic force between protons and nitrate ions.
- In Al2(SO4)3, electronic interactions and coulumbic force are present along with the metallic bond. It is also an electrostatic and ionic force in Al(NO3)3, as well as van der waal’s attraction.
Molecule | Acting force |
HNO3 | Electrostatic, van der waal’s Dipole interaction, Covalent interaction |
Al2(SO4)3 | Metallic bond, strong electrostatic force, ionic interaction, Coulumbic force |
Al(NO3)3 | Electrostatic force, ionic interaction |
H2SO4 | H-bonding, covalent force, ionic interaction |
8. HNO3 + Al2(SO4)3reaction enthalpy
HNO3 + Al2(SO4)3 reaction enthalpy is +1828.96 KJ/mol which can be obtained by the formula: enthalpy of products – enthalpy of reactants. Here the change in enthalpy is positive.
Molecule | Enthalpy (KJ/mol) |
Al2(SO4)3 | -3440 |
HNO3 | -207.36 |
Al(NO3)3 | -206.60 |
H2SO4 | -814 |
and Products
9. Is HNO3 + Al2(SO4)3 a buffer solution?
The reaction between HNO3 + Al2(SO4)3 gives a buffer solution of Al(NO3)3 and H2SO4 which can control the pH of the reaction upon the addition of base.
10. Is HNO3 + Al2(SO4)3 a complete reaction?
The reaction between HNO3 + Al2(SO4)3 is complete because it gives two major ones: a strong electrolyte and another strong acid molecule.
11. Is HNO3 + Al2(SO4)3 an exothermic or endothermic reaction?
The reaction of HNO3 + Al2(SO4)3 is endothermic in terms of thermodynamics first law. This reaction released more energy and temperature to the surroundings, where δH is always positive.
12. Is HNO3 + Al2(SO4)3 a redox reaction?
HNO3 + Al2(SO4)3 reaction is a redox reaction because N gets oxidized and sulfur gets reduced in this reaction. Here HNO3 acts as a reducing agent whereas Al2(SO4)3 acts as an oxidizing agent.
13. Is HNO3 + Al2(SO4)3 a precipitation reaction
The reaction between HNO3 + Al2(SO4)3 is a precipitation reaction because Al(NO3)3 gets precipitated in the solution at certain pH which can be removed by heating the solution.
14. Is HNO3 + Al2(SO4)3 reversible or irreversible reaction?
The reaction between HNO3 + Al2(SO4)3 is irreversible because it produced an acid molecule. As a result, the equilibrium shifts towards the right-hand side only or forward directions.
HNO3 + Al2(SO4)3 —-> Al(NO3)3 + H2SO4
15. Is HNO3 + Al2(SO4)3 displacement reaction?
The reaction between HNO3 + Al2(SO4)3 is an example of a double displacement reaction. Because in the above reaction H+ was displaced by Al from HNO3 and Al3+ was displaced from Al2(SO4)3 by H+.
Conclusion
The reaction between HNO3 and Al2(SO4)3 gives us an electrolytic salt Aluminium nitrate along with sulfuric acid, where we can estimate the amount of nitrate. The reaction is commercially important for the production of sulfuric acid. It is an irreversible endothermic reaction without using a catalyst so it absorbs heat from surroundings.
Hi……I am Biswarup Chandra Dey, I have completed my Master’s in Chemistry from the Central University of Punjab. My area of specialization is Inorganic Chemistry. Chemistry is not all about reading line by line and memorizing, it is a concept to understand in an easy way and here I am sharing with you the concept about chemistry which I learn because knowledge is worth to share it.