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CuBr2 + 2KMnO4 → CuO + KBrO3 + 2MnO2 + KBr

CuBr₂ + 2KMnO₄ → CuO + KBrO₃ + 2MnO₂ + KBr

Last updated: May 12, 2022

Reaction of copper(II) bromide and potassium permanganate: CuBr₂Copper(II) bromide + 2KMnO₄Potassium permanganate
⟶
CuOCopper(II) oxide + KBrO₃Potassium bromate + 2MnO₂Manganese(IV) oxide + KBrPotassium bromide

The reaction of copper(II) bromide and potassium permanganate yields copper(II) oxide, potassium bromate, manganese(IV) oxide, and potassium bromide (Other reactions are here). This reaction is an oxidation-reduction reaction and is classified as follows:

Reaction of hardly oxidizable species and oxidizing species

Table of contents

Reaction data

Chemical equation

Reaction of copper(II) bromide and potassium permanganate: CuBr₂Copper(II) bromide + 2KMnO₄Potassium permanganate
⟶
CuOCopper(II) oxide + KBrO₃Potassium bromate + 2MnO₂Manganese(IV) oxide + KBrPotassium bromide

General equation

Reaction of hardly oxidizable species and oxidizing species: Hardly oxidizable speciesReducing agent + Oxidizing speciesOxidizing agent
⟶
ProductOxidation product + ProductReduction product

Oxidation state of each atom

Reaction of copper(II) bromide and potassium permanganate

Reactants

Chemical formula	Name	Coefficient	Type	Type in general equation
CuBr₂	Copper(II) bromide	1	Reducing	Hardly oxidizable
KMnO₄	Potassium permanganate	2	Oxidizing	Oxidizing

Products

Chemical formula	Name	Coefficient	Type	Type in general equation
CuO	Copper(II) oxide	1	–	–
KBrO₃	Potassium bromate	1	Oxidized	–
MnO₂	Manganese(IV) oxide	2	Reduced	–
KBr	Potassium bromide	1	–	–

Thermodynamic changes

Changes in standard condition (1)

Reaction of copper(II) bromide and potassium permanganate: CuBr₂Crystalline solid + 2KMnO₄Crystalline solid
⟶
CuOCrystalline solid + KBrO₃Crystalline solid + 2MnO₂Crystalline solid + KBrCrystalline solid

	Standard enthalpy of reaction Δ_rH° kJ · mol⁻¹	Standard Gibbs energy of reaction Δ_rG° kJ · mol⁻¹	Standard entropy of reaction Δ_rS° J · K⁻¹ · mol⁻¹	Standard heat capacity of reaction at constant pressure Δ_rC_p° J · K⁻¹ · mol⁻¹
per 1 mol of Equation	−135.2	–	–	–
per 1 mol of Copper(II) bromide	−135.2	–	–	–
per 1 mol of Potassium permanganate	−67.60	–	–	–
per 1 mol of Copper(II) oxide	−135.2	–	–	–
per 1 mol of Potassium bromate	−135.2	–	–	–
per 1 mol of Manganese(IV) oxide	−67.60	–	–	–
per 1 mol of Potassium bromide	−135.2	–	–	–

Changes in standard condition (2)

Reaction of copper(II) bromide and potassium permanganate: CuBr₂Crystalline solid + 2KMnO₄Crystalline solid
⟶
CuOCrystalline solid + KBrO₃Crystalline solid + 2MnO₂Amorphous solidprecipitated + KBrCrystalline solid

	Standard enthalpy of reaction Δ_rH° kJ · mol⁻¹	Standard Gibbs energy of reaction Δ_rG° kJ · mol⁻¹	Standard entropy of reaction Δ_rS° J · K⁻¹ · mol⁻¹	Standard heat capacity of reaction at constant pressure Δ_rC_p° J · K⁻¹ · mol⁻¹
per 1 mol of Equation	−100.1	–	–	–
per 1 mol of Copper(II) bromide	−100.1	–	–	–
per 1 mol of Potassium permanganate	−50.05	–	–	–
per 1 mol of Copper(II) oxide	−100.1	–	–	–
per 1 mol of Potassium bromate	−100.1	–	–	–
per 1 mol of Manganese(IV) oxide	−50.05	–	–	–
per 1 mol of Potassium bromide	−100.1	–	–	–

Changes in aqueous solution

Reaction of copper(II) bromide and potassium permanganate: CuBr₂Crystalline solid + 2KMnO₄Ionized aqueous solution
⟶
CuOCrystalline solid + KBrO₃Ionized aqueous solution + 2MnO₂Crystalline solid + KBrIonized aqueous solution

	Standard enthalpy of reaction Δ_rH° kJ · mol⁻¹	Standard Gibbs energy of reaction Δ_rG° kJ · mol⁻¹	Standard entropy of reaction Δ_rS° J · K⁻¹ · mol⁻¹	Standard heat capacity of reaction at constant pressure Δ_rC_p° J · K⁻¹ · mol⁻¹
per 1 mol of Equation	−161.3	–	–	–
per 1 mol of Copper(II) bromide	−161.3	–	–	–
per 1 mol of Potassium permanganate	−80.65	–	–	–
per 1 mol of Copper(II) oxide	−161.3	–	–	–
per 1 mol of Potassium bromate	−161.3	–	–	–
per 1 mol of Manganese(IV) oxide	−80.65	–	–	–
per 1 mol of Potassium bromide	−161.3	–	–	–

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
CuBr₂ (cr)	-141.8^[1]	–	–	–
CuBr₂ (cr) 4 hydrate	-1326.3^[1]	–	–	–
KMnO₄ (cr)	-837.2^[1]	-737.6^[1]	171.71^[1]	117.57^[1]
KMnO₄ (ai)	-793.8^[1]	-730.5^[1]	293.7^[1]	-60.2^[1]

* (cr):Crystalline solid, (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
CuO (cr)	-157.3^[1]	-129.7^[1]	42.63^[1]	42.30^[1]
KBrO₃ (cr)	-360.24^[1]	-271.16^[1]	149.16^[1]	105.19^[1]
KBrO₃ (ai)	-319.45^[1]	-264.67^[1]	264.22^[1]	–
MnO₂ (cr)	-520.03^[1]	-465.14^[1]	53.05^[1]	54.14^[1]
MnO₂ (am) precipitated	-502.5^[1]	–	–	–
KBr (cr)	-393.798^[1]	-380.66^[1]	95.90^[1]	52.30^[1]
KBr (g)	-180.08^[1]	-212.96^[1]	250.52^[1]	36.920^[1]
KBr (ai)	-373.92^[1]	-387.23^[1]	184.9^[1]	-120.1^[1]

* (cr):Crystalline solid, (ai):Ionized aqueous solution, (am):Amorphous solid, (g):Gas

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)
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