Why Do Dicarboxylic Acids Show a Less Pronounced Odd-Even Effect in pKa?

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Dicarboxylic acids exhibit a less pronounced odd-even effect in pKa due to the presence of two carboxyl groups, which counteracts the steric hindrance that influences proton dissociation in monocarboxylic acids. During titration, a neutralization reaction occurs between an acid and a base, producing a salt and water. A water bath is utilized in reaction kinetics to maintain a constant temperature, ensuring accurate and reproducible results. The discussion highlights the importance of understanding these concepts in physical chemistry. Overall, the interplay of molecular structure and reaction conditions is crucial in determining pKa behavior.
DW_1983
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Hi everyone :smile:

I need help to answer these question related to physical chemistry :

1- In reaction Kinetics, what reaction takes place during titration?

2- In reaction kinetics, why do we use a water bath?

3- Why Dicarboxylic acids do not show a clear odd-even effect in pKa?


Thanks.
 
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Methinks these sound like questions that can be answered if you read your material...
 


Hi there! Welcome to the group. I'd be happy to help with your questions on physical chemistry.

1- During titration, a neutralization reaction takes place between an acid and a base. This reaction involves the transfer of protons from the acid to the base, resulting in the formation of a salt and water.

2- A water bath is used in reaction kinetics to control the temperature of the reaction. This is important because temperature can greatly affect the rate of a reaction. By maintaining a constant temperature, we can ensure that our results are accurate and reproducible.

3- The odd-even effect in pKa is observed in monocarboxylic acids because the additional carbon atom introduces a steric hindrance, making it more difficult for the proton to dissociate. However, in dicarboxylic acids, the presence of two carboxyl groups cancels out this effect, resulting in a less pronounced odd-even effect.
 
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