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To determine whether the condensation reaction between a carboxylic acid and an amine is endothermic or exothermic, we need to compare the energy required to break the existing bonds (in the reactants) with the energy released when new bonds form (in the product peptide). Specifically, we will focus on the formation of the peptide bond.

The formation of a peptide bond involves the reaction between the carboxylic acid group (-COOH) and the amino group (-NH2). During this reaction, a water molecule is eliminated, and a new bond is formed between the carbon and nitrogen atoms. Peptide bond formation is an example of a condensation reaction.

Typically, the bond energies are expressed in terms of enthalpy changes (ΔH) for the reaction. If the energy released during bond formation (exothermic) is greater than the energy required to break the existing bonds (endothermic), the overall reaction is exothermic. Conversely, if the energy required to break the existing bonds is greater than the energy released during bond formation, the reaction is endothermic.

The enthalpy change for the formation of a peptide bond can vary depending on the specific carboxylic acid and amine involved. However, on average, the formation of a peptide bond is an exothermic reaction. The energy released during the formation of the peptide bond is usually greater than the energy required to break the bonds in the reactants (ethanoic acid and ethylamine).

While I don't have access to specific bond energy values for ethanoic acid and ethylamine, I can provide a general estimate of the enthalpy change for the formation of a peptide bond. On average, the enthalpy change for peptide bond formation is approximately -8 kcal/mol or -33.5 kJ/mol.

Please note that these values are rough estimates and can vary depending on the specific compounds involved and reaction conditions. For a more precise calculation, it is necessary to consult experimental data or perform detailed quantum mechanical calculations.

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