What is produced when ethanol undergoes dehydration with a catalyst?

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Prepare for the IGCSE Organic Chemistry Exam. Study with flashcards and multiple choice questions, each question has hints and explanations to ensure you understand the core concepts. Get ready for your test with confidence!

Multiple Choice

What is produced when ethanol undergoes dehydration with a catalyst?

Explanation:
Dehydration of an alcohol with a catalyst is an elimination process that removes a water molecule to form an alkene. In ethanol, the -OH group is protonated by the acid, turning into a good leaving group as water. When water leaves, a hydrogen from the adjacent carbon is removed, creating a C=C double bond and yielding ethene. The reaction can be written as CH3-CH2-OH → CH2=CH2 + H2O, with the acid catalyst (like concentrated sulfuric acid) and heat driving the process. Ethane would come from adding hydrogen (hydrogenation), not removing water. Ethyl ethanoate would form by esterification with a carboxylic acid, not dehydration.

Dehydration of an alcohol with a catalyst is an elimination process that removes a water molecule to form an alkene. In ethanol, the -OH group is protonated by the acid, turning into a good leaving group as water. When water leaves, a hydrogen from the adjacent carbon is removed, creating a C=C double bond and yielding ethene. The reaction can be written as CH3-CH2-OH → CH2=CH2 + H2O, with the acid catalyst (like concentrated sulfuric acid) and heat driving the process. Ethane would come from adding hydrogen (hydrogenation), not removing water. Ethyl ethanoate would form by esterification with a carboxylic acid, not dehydration.

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