The conversion of ethanol (C2H5OH) to ethanoic acid (CH3COOH), also known as acetic acid, is considered an oxidation reaction. This process involves the loss of electrons by ethanol. In this reaction, ethanol is oxidized to form ethanoic acid, and the oxidizing agent is typically an oxygen-containing compound, such as oxygen itself or another chemical species.
The oxidation state of carbon in ethanol changes from -2 to +2 in ethanoic acid. In ethanol, carbon is bonded to hydrogen with a partial negative charge, indicating a reduction state. In ethanoic acid, carbon is bonded to oxygen with a partial positive charge, indicating an oxidation state. This change in oxidation state reflects the loss of electrons by carbon during the conversion process, making it an oxidation reaction.
A molecule of ethanol contains six hydrogen atoms while that of ethanoic acid contains four hydrogen atoms since oxidation involves removal of hydrogen, therefore conversion of ethanol to ethanoic acid is an oxidation reaction.
Explanation:
A molecule of ethanol contains six hydrogen atoms while that of ethanoic acid contains four hydrogen atoms since oxidation involves removal of hydrogen, therefore conversion of ethanol to ethanoic acid is an oxidation reaction.
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The conversion of ethanol (C2H5OH) to ethanoic acid (CH3COOH), also known as acetic acid, is considered an oxidation reaction. This process involves the loss of electrons by ethanol. In this reaction, ethanol is oxidized to form ethanoic acid, and the oxidizing agent is typically an oxygen-containing compound, such as oxygen itself or another chemical species.The oxidation state of carbon in ethanol changes from -2 to +2 in ethanoic acid. In ethanol, carbon is bonded to hydrogen with a partial negative charge, indicating a reduction state. In ethanoic acid, carbon is bonded to oxygen with a partial positive charge, indicating an oxidation state. This change in oxidation state reflects the loss of electrons by carbon during the conversion process, making it an oxidation reaction.
Answer:
A molecule of ethanol contains six hydrogen atoms while that of ethanoic acid contains four hydrogen atoms since oxidation involves removal of hydrogen, therefore conversion of ethanol to ethanoic acid is an oxidation reaction.
Explanation:
A molecule of ethanol contains six hydrogen atoms while that of ethanoic acid contains four hydrogen atoms since oxidation involves removal of hydrogen, therefore conversion of ethanol to ethanoic acid is an oxidation reaction.