Solve Entropy & Enthalpy for Calcium Carbonate Decomposition

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SUMMARY

The discussion focuses on calculating the thermodynamic properties of the decomposition of calcium carbonate (CaCO3) into calcium oxide (CaO) and carbon dioxide (CO2). The standard enthalpy change (ΔH) was calculated to be -2236 kJ/mol, while the entropy change (ΔS) needs to be determined using standard thermodynamic data. The participants emphasize the importance of using consistent units, as entropy is typically expressed in J/mol, while enthalpy is in kJ/mol. The calculations utilize the formula G = H - TS to find the Gibbs free energy (ΔG) at 25°C.

PREREQUISITES
  • Understanding of standard enthalpy of formation (Hf) values for CaCO3, CaO, and CO2
  • Familiarity with the Gibbs free energy equation G = H - TS
  • Knowledge of thermodynamic data interpretation
  • Ability to convert units between J/mol and kJ/mol
NEXT STEPS
  • Research standard enthalpy of formation values for various compounds
  • Learn how to calculate entropy changes for chemical reactions
  • Study the application of the Gibbs free energy equation in different thermodynamic scenarios
  • Explore resources for thermodynamic data, such as the ChemTables website
USEFUL FOR

Chemistry students, educators, and professionals involved in thermodynamics, particularly those focusing on reaction energetics and calculations related to chemical decomposition reactions.

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Homework Statement



consider the decomposition of calcium carbonate: CaCO3(s) yields CaO(s) + CO2(g)

a) calculate delta H and delta S from standard thermodynamic data.
b) calculate delta G at 25.0C

Homework Equations



G = H - TS


The Attempt at a Solution



i added up all the thermodynamic data and got -2236 KJ/mol
now this is the delta G but for (a) I am not given a temperature(is it 25C) and i have to solve for two variables. not sure what to do.
 
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anybody please, can u at least get me started.
 
1. list Hf values for CaCO3, CaO, CO2 (-1207,-635,-394 kJ/mole) (this is at 25C, 1 atm)
2. H(reaction)=SUM(r*Hf), where r= reaction-coefficient= negative for reactants)
3. similar for entropy.
4. use G=H-TS for the calculation of G(reaction)
 
Delta H and Delta S Values:
http://chemtables.tk/
(click Entropy and Enthalpy Tab)

Use Products - Reactants with the values on the website above to determine the overall delta H and delta S.

(Values for Products) - (Values for Reactants)

Then, once you have delta S and delta H, you can use the formula you provided above to find delta G.

You can also verify that your delta G is correct by using the values in the chart to see if you come out with the same answer. Make sure that you keep your values consistent! Entropy is often in J/mol while the others are in kJ/mol.
 

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