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SnS2 + 4KOH → 2K2S + Sn(OH)4

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Reaction of tin(IV) sulfide and potassium hydroxide
SnS2Tin(IV) sulfide + 4KOHPotassium hydroxide
2K2SPotassium sulfide + Sn(OH)4Tin(IV) hydroxide

The reaction of tin(IV) sulfide and potassium hydroxide yields potassium sulfide and tin(IV) hydroxide (Other reactions are here). This reaction is an acid-base reaction and is classified as follows:

Table of contents
  1. 1Reaction data
  2. 2Thermodynamic changes
  3. 3References
  4. 4Related reactions
  5. 5Related categories

Reaction data

Chemical equation

Reaction of tin(IV) sulfide and potassium hydroxide
SnS2Tin(IV) sulfide + 4KOHPotassium hydroxide
2K2SPotassium sulfide + Sn(OH)4Tin(IV) hydroxide

General equation

Reaction of salt of weak base and strong base
Salt of weak baseBrønsted acid + Strong baseBrønsted base
Salt of strong baseConjugate acid + Weak baseConjugate base + (H2O)

Oxidation state of each atom

Reaction of tin(IV) sulfide and potassium hydroxide

Reactants

Chemical formulaNameCoefficientTypeType in general
equation
SnS2Tin(IV) sulfide1
Brønsted acid
Salt of weak base
KOHPotassium hydroxide4
Brønsted base
Strong base

Products

Chemical formulaNameCoefficientTypeType in general
equation
K2SPotassium sulfide2
Conjugate acid
Salt of strong base
Sn(OH)4Tin(IV) hydroxide1
Conjugate base
Weak base

Thermodynamic changes

Changes in standard condition

Reaction of tin(IV) sulfide and potassium hydroxide
SnS2Crystalline solid + 4KOHCrystalline solid
2K2SCrystalline solid + Sn(OH)4Crystalline solidprecipitated
Standard enthalpy
of reaction
ΔrH°
kJ · mol−1		Standard
Gibbs energy
of reaction
ΔrG°
kJ · mol−1		Standard entropy
of reaction
ΔrS°
J · K−1 · mol−1		Standard heat
capacity of reaction
at constant pressure
ΔrCp°
J · K−1 · mol−1
per 1 mol of
Equation
per 1 mol of
per 1 mol of
per 1 mol of

Changes in aqueous solution

Reaction of tin(IV) sulfide and potassium hydroxide
SnS2Crystalline solid + 4KOHIonized aqueous solution
2K2SIonized aqueous solution + Sn(OH)4Crystalline solidprecipitated
Standard enthalpy
of reaction
ΔrH°
kJ · mol−1		Standard
Gibbs energy
of reaction
ΔrG°
kJ · mol−1		Standard entropy
of reaction
ΔrS°
J · K−1 · mol−1		Standard heat
capacity of reaction
at constant pressure
ΔrCp°
J · K−1 · mol−1
per 1 mol of
Equation
per 1 mol of
per 1 mol of
per 1 mol of

Thermodynamic data of reactants

Chemical formulaStandard enthalpy
of formation
ΔfH°
kJ · mol−1		Standard Gibbs
energy of
formation
ΔfG°
kJ · mol−1		Standard
molar entropy
S°
J · K−1 · mol−1		Standard molar
heat capacity at
constant pressure
Cp°
J · K−1 · mol−1
SnS2 (cr)87.4[1]70.12[1]
KOH (cr)-424.764[1]-379.08[1]78.9[1]64.9[1]
KOH (g)-231.0[1]-232.6[1]238.3[1]49.20[1]
KOH (ai)-482.37[1]-440.50[1]91.6[1]-126.8[1]
KOH (cr)
1 hydrate
-748.9[1]-645.1[1]117.2[1]
KOH (cr)
2 hydrate
-1051.0[1]-887.3[1]150.6[1]
* (cr):Crystalline solid, (g):Gas, (ai):Ionized aqueous solution

Thermodynamic data of products

Chemical formulaStandard enthalpy
of formation
ΔfH°
kJ · mol−1		Standard Gibbs
energy of
formation
ΔfG°
kJ · mol−1		Standard
molar entropy
S°
J · K−1 · mol−1		Standard molar
heat capacity at
constant pressure
Cp°
J · K−1 · mol−1
K2S (cr)-380.7[1]-364.0[1]105[1]
K2S (ai)-471.5[1]-480.7[1]190.4[1]
K2S (cr)
2 hydrate
-975.3[1]
K2S (cr)
5 hydrate
-1871.5[1]
Sn(OH)4 (cr)
precipitated
-1110.0[1]
* (cr):Crystalline solid, (ai):Ionized aqueous solution

References

List of references

  1. 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
    National Institute of Standards and Technology (NIST)