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Ba(HCO3)2 + 2H[AuCl4] → BaCl2 + 2AuCl3 + 2CO2↑ + 2H2O

Ba(HCO₃)₂ + 2H[AuCl₄] → BaCl₂ + 2AuCl₃ + 2CO₂↑ + 2H₂O

Last updated: June 13, 2022

Reaction of barium hydrogencarbonate and tetrachloridoauric(III) acid: Ba(HCO₃)₂Barium hydrogencarbonate + 2H[AuCl₄]Tetrachloridoauric(III) acid
⟶
BaCl₂Barium chloride + 2AuCl₃Gold(III) chloride + 2CO₂↑Carbon dioxide + 2H₂OWater

The reaction of barium hydrogencarbonate and tetrachloridoauric(III) acid yields barium chloride, gold(III) chloride, carbon dioxide, and water (Other reactions are here). This reaction is an acid-base reaction and is classified as follows:

Reaction of salt of weak acid and strong acid with generating weak acidic oxide

Table of contents

Reaction data

Chemical equation

Reaction of barium hydrogencarbonate and tetrachloridoauric(III) acid: Ba(HCO₃)₂Barium hydrogencarbonate + 2H[AuCl₄]Tetrachloridoauric(III) acid
⟶
BaCl₂Barium chloride + 2AuCl₃Gold(III) chloride + 2CO₂↑Carbon dioxide + 2H₂OWater

General equation

Reaction of salt of weak acid and strong acid with generating weak acidic oxide: Salt of weak acidBrønsted base + Strong acidBrønsted acid
⟶
Salt of strong acidConjugate base + Acidic oxide + H₂OConjugate acid

Oxidation state of each atom

Reaction of barium hydrogencarbonate and tetrachloridoauric(III) acid

Reactants

Chemical formula	Name	Coefficient	Type	Type in general equation
Ba(HCO₃)₂	Barium hydrogencarbonate	1	Brønsted base	Salt of weak acid
H[AuCl₄]	Tetrachloridoauric(III) acid	2	Brønsted acid	Strong acid

Products

Chemical formula	Name	Coefficient	Type	Type in general equation
BaCl₂	Barium chloride	1	Conjugate base	Salt of strong acid
AuCl₃	Gold(III) chloride	2	Conjugate base	Salt of strong acid
CO₂	Carbon dioxide	2	–	Acidic oxide
H₂O	Water	2	Conjugate acid	Water

Thermodynamic changes

Thermodynamic data of reactants

Chemical formula	Standard enthalpy of formation Δ_fH° kJ · mol⁻¹	Standard Gibbs energy of formation Δ_fG° kJ · mol⁻¹	Standard molar entropy S° J · K⁻¹ · mol⁻¹	Standard molar heat capacity at constant pressure C_p° J · K⁻¹ · mol⁻¹
Ba(HCO₃)₂ (ai)	-1921.63^[1]	-1734.30^[1]	192.0^[1]	–
H[AuCl₄]	–	–	–	–

* (ai):Ionized aqueous solution

Thermodynamic data of products

Chemical formula	Standard enthalpy of formation Δ_fH° kJ · mol⁻¹	Standard Gibbs energy of formation Δ_fG° kJ · mol⁻¹	Standard molar entropy S° J · K⁻¹ · mol⁻¹	Standard molar heat capacity at constant pressure C_p° J · K⁻¹ · mol⁻¹
BaCl₂ (cr)	-858.6^[1]	-810.4^[1]	123.68^[1]	75.14^[1]
BaCl₂ (g)	-525.9^[1]	-537.6^[1]	325.29^[1]	56.19^[1]
BaCl₂ (ai)	-871.95^[1]	-823.21^[1]	122.6^[1]	–
BaCl₂ (cr) 1 hydrate	-1160.6^[1]	-1055.63^[1]	166.9^[1]	–
BaCl₂ (cr) 2 hydrate	-1460.13^[1]	-1296.32^[1]	202.9^[1]	161.96^[1]
AuCl₃ (cr)	-117.6^[1]	–	–	–
AuCl₃ (cr) 2 hydrate	-715.0^[1]	–	–	–
CO₂ (g)	-393.509^[1]	-394.359^[1]	213.74^[1]	37.11^[1]
CO₂ (ao)	-413.80^[1]	-385.98^[1]	117.6^[1]	–
H₂O (cr)	–	–	–	–
H₂O (l)	-285.830^[1]	-237.129^[1]	69.91^[1]	75.291^[1]
H₂O (g)	-241.818^[1]	-228.572^[1]	188.825^[1]	33.577^[1]

* (cr):Crystalline solid, (g):Gas, (ai):Ionized aqueous solution, (ao):Un-ionized aqueous solution, (l):Liquid

References

List of references

1
Janiel J. Reed (1989)
The NBS Tables of Chemical Thermodynamic Properties: Selected Values for Inorganic and C1 and C2 Organic Substances in SI Units
https://doi.org/10.18434/M32124
National Institute of Standards and Technology (NIST)
Citation list