ba(oh)2 + hno3

HNO₃ is colorless mineral acid reacts with crystalline inorganic compound Ba(OH)₂. Let us study, how reaction takes place

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HNO₃ reacts with Ba(OH)₂ to tát give corresponding salt and by product. HNO₃ is strong acid with pka of less than thở 1, used for production of ammonia and also constitute major components of fertilizer reacts with inorganic compound Ba(OH)₂ because it is alkaline earth metal hydroxides.

Via this article, we are going to tát discover how both inorganic compounds react together, their products, reaction type, and its balanced sườn.

What is the Product of HNO₃ + Ba(OH)₂

HNO₃ reacts Ba(OH)₂ to tát give Barium Nitrate Ba (NO₃)₂ and Water H₂O.

HNO₃ + Ba(OH)₂ → Ba(NO₃)₂ + H₂O

What type of reaction is HNO₃ + Ba(OH)₂  

HNO₃ + Ba(OH)₂ is neutralization reaction. Mixing of strong base Ba(OH)₂ with strong acid HNO₃ to give salt and water takes place.

How to tát balance HNO₃ + Ba(OH)₂

We have to tát balance given reaction.

HNO₃ + Ba(OH)₂→ Ba(NO₃)₂ + H₂O

• Balanced reaction shows equal number of elements on both reactant and product side. Here we have to tát allocate number coefficients to tát make reaction balanced.
• We have to tát assign each compound with respective alphabetical coefficients lượt thích A, B, C, D.
• A HNO₃ + B Ba(OH)₂ → C Ba(NO₃)₂ + D H₂O

• Enter the coefficient values into the elimination method for estimation.
• Get the smallest, whole integer values from the result by simplifying it.
• A = 2, B= 1, C=1, D=2
• The balanced equation is
• 2 HNO₃ + Ba(OH)₂ → Ba(NO₃)₂+ 2 H₂O.

HNO₃ + Ba(OH)₂ titration

• HNO₃ + Ba(OH)₂ undergo acid base titration. Strong acid HNO₃ combines with strong base Ba(OH)₂ to tát give neutralization reaction by undergoing titration of standard solution to tát give equivalence point.
• Titration will take place as

Apparatus used

Titration stand, pipette, burette, volumetric flask, conical flask, stirrer, funnel.

Chemicals

Unknown concentration of HNO₃, known concentration of Ba(OH)_2.

Indicators

Phenolphthalein indicator is commonly used indicators for such titration.

Procedure

• In the first place, fill the burette all the way to tát the tip before rinsing it with a known barium hydroxide solution.
• In this titration nitric acid is analyte and titrant are barium hydroxide, because nitric acid is in unknown amount, whose concentration we need to tát find by the help of barium hydroxide.
• Then suck precise amount of nitric acid solution in conical flask.
• Add 2-3 drops of phenolphthalein indicator in conical flask containing unknown concentration of nitric acid.
• Then add drop by drop of known concentration of barium hydroxide solution into conical flak by means of burette, till its color changes from colorless to tát pink.
• Note the reading n repeat it for 3 times.
• For finding normality of analyte, the formulae are given as:
• N₁V₁ = N₂V₂
• From normality value, we can find mass of nitric acid.
• Mass = Eq. Wt. × normality × volume / 1000

HNO₃ + Ba(OH)₂ net ionic equation

Net ionic equation, for HNO₃ + Ba(OH)₂ is

OH^– ( Aq ) + H⁺( Aq ) → H₂O ( l )

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• Every compound’s phase should be taken into tài khoản while balancing a molecular equation.
• 2 HNO₃ (Aq) + Ba(OH)₂ (Aq) → Ba(NO₃)₂ (Aq) + 2H₂O (l)
• The aqueous salts or chemicals in the equation need to tát be made into ions. Only the strong electrolytes should be broken down since they completely dissociate.
• Here, HNO₃ is strong acid, Ba(OH)₂ is strong base, and Ba(NO₃)₂ is strong salt. So, they undergo dissociation.
• 2 H⁺ + 2 NO₃^– + Ba⁺² + 2 OH^– → Ba⁺² + 2NO₃^– + 2 H₂O
• The spectator ions must be cancelled out in order to tát show species, actually involved in reaction.
• The remaining substance is net ionic equation.
• OH^– (Aq) + H⁺(Aq) → H₂O (l)

HNO₃ and Ba(OH)₂ conjugate pairs

Conjugate pairs for HNO₃ and Ba(OH)₂ are as follows:

• HNO₃, release H+ to tát give NO₃^– as conjugate pairs.
• The conjugate acid of Ba(OH)₂ is Ba⁺².
• The conjugate base of Ba(OH)₂ is OH^–.
• The conjugate acid of H₂O is H₃O⁺.
• H₂O undergo deprotonation to tát give conjugate base OH^–.
• Ba(NO₃)₂ do not constitute any conjugate pairs.

HNO₃ and Ba(OH)₂ intermolecular forces

Intermolecular forces present between HNO₃ and Ba(OH)₂ are,

• HNO₃ show hydrogen bonding, London forces and dipole-dipole attraction, due to tát separated hydrogen ions and nitrate ions, in aqueous solutions.
• Ba(OH)₂ show strong ionic intermolecular forces of attraction.
• H₂O show hydrogen bond, dipole-dipole forces and London dispersion forces because of electronegativity differences between O and H atoms.

HNO₃ + Ba(OH)₂ reaction enthalpy

HNO₃ + Ba(OH)₂ has the enthalpy of -948 KJ/Mol which is negative,

• The enthalpy of formation of HNO₃ is -173.1 KJ/Mol.
• The enthalpy of formation of Ba(OH)₂ is -643.9 KJ/Mol.
• The enthalpy of formation of Ba(NO₃)₂ is -78 KJ/Mol.
• The enthalpy of formation of H₂O is – 285.8 KJ/Mol.

Is HNO₃ + Ba(OH)₂ a buffer solution

HNO₃ + Ba(OH)₂ is not buffer solution. Buffer salts constitute of weak acid and its conjugate base but here both acid and base are strong in nature, so sánh it contradicts the criteria for being buffer solution.

Is HNO₃ + Ba(OH)₂ a complete reaction

HNO₃ + Ba(OH)₂ is complete reaction because of strong acidic and basic nature of HNO₃ and Ba(OH)₂ solutions, to tát make them completely dissociated. So, reactant get completely consumed during reaction with no traces remaining further.

Is HNO₃ + Ba(OH)₂ an exothermic or endothermic reaction

HNO₃ + Ba(OH)₂ is endothermic reaction. On mixing of both reactant, temperature of mixture drops down to tát 450°C. It is cold enough to tát freeze up the reaction mixture beaker.

Is HNO₃ + Ba(OH)₂ a redox reaction

HNO₃ + Ba(OH)₂ is not a redox reaction. On both reactant product side, there is same no. of oxidation states of corresponding elements.

Is HNO₃ + Ba(OH)₂ a precipitation reaction

HNO₃ + Ba(OH)₂ is not precipitation reaction. Here, formation of salt of barium nitrate takes place, which is strongly soluble in water.

Is HNO₃ + Ba(OH)₂ is reversible or irreversible reaction

HNO₃ + Ba(OH)₂ is irreversible reaction. Equilibrium constant of reaction is high which implicates reaction to tát move in forward direction giving products, due to tát high ionization power of strong acid and strong base present in our reactant side.

Is HNO₃+ Ba(OH)₂ displacement reaction

HNO₃ + Ba(OH)₂  gives double displacement reaction. Swapping of bonds takes place between HNO₃ and Ba(OH)₂ molecules, giving different intermixed products.

Conclusion

HNO₃ reacts with Ba(OH)₂ to tát give corresponding salt and water with absorbing heat from surrounding. Barium nitrate is colorless water insoluble compound, widely used for military purposes for making TNT and binders.

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