What is the IUPAC name for the following compound?

Chemistry
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Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
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1) What is the IUPAC name for the following compound?

2) The Baeyer-Villiger oxidation of (phenyl methyl ketone) produces chiefly...

 

 

The image depicts the chemical structure of an organic compound. The compound includes a benzene ring with three substituents:

1. A chlorine (Cl) atom attached to the benzene ring.
2. A nitro group (NO₂) attached to the benzene ring.
3. An aldehyde group (CHO) connected via a single bond extending from the benzene ring.

The benzene ring includes alternating single and double bonds, characteristic of aromatic compounds. This structure is commonly seen in organic chemistry and used in various chemical education contexts to illustrate substitution patterns and functional groups in aromatic compounds.
Transcribed Image Text:The image depicts the chemical structure of an organic compound. The compound includes a benzene ring with three substituents: 1. A chlorine (Cl) atom attached to the benzene ring. 2. A nitro group (NO₂) attached to the benzene ring. 3. An aldehyde group (CHO) connected via a single bond extending from the benzene ring. The benzene ring includes alternating single and double bonds, characteristic of aromatic compounds. This structure is commonly seen in organic chemistry and used in various chemical education contexts to illustrate substitution patterns and functional groups in aromatic compounds.
The image displays a series of chemical structures labeled as I, II, III, IV, and V. These structures represent various organic compounds, specifically derivatives of benzene with different functional groups. For educational purposes, here's a detailed description of each structure:

- **I**: This is a structure of methyl benzoate. It consists of a benzene ring attached to a carbonyl group (C=O) and a methoxy group (OCH₃). The methoxy group is connected to the carbonyl carbon.

- **II**: This structure is ethyl benzoate. It is similar to structure I but with an ethoxy group (OCH₂CH₃) in place of the methoxy group, attached to the carbonyl carbon.

- **III**: This compound is methyl salicylate. Similar to methyl benzoate, it has a methoxy group, but in addition, it has a hydroxyl group (OH) attached to the benzene ring.

- **IV**: This is a combination of phenol and acetic acid. Phenol consists of a benzene ring with a hydroxyl group, and acetic acid is depicted as a carbonyl group (C=O) connected to a hydroxyl group and a methyl group (CH₃).

- **V**: This structure is acetophenone, featuring a benzene ring attached to a carbonyl group, which is connected to a methyl group. Additionally, there is a hydroxyl group on the benzene ring.

These structures are foundational in organic chemistry, illustrating aromatic compounds with various esters, alcohols, and acids, showcasing their structural diversity and functional group variations.
Transcribed Image Text:The image displays a series of chemical structures labeled as I, II, III, IV, and V. These structures represent various organic compounds, specifically derivatives of benzene with different functional groups. For educational purposes, here's a detailed description of each structure: - **I**: This is a structure of methyl benzoate. It consists of a benzene ring attached to a carbonyl group (C=O) and a methoxy group (OCH₃). The methoxy group is connected to the carbonyl carbon. - **II**: This structure is ethyl benzoate. It is similar to structure I but with an ethoxy group (OCH₂CH₃) in place of the methoxy group, attached to the carbonyl carbon. - **III**: This compound is methyl salicylate. Similar to methyl benzoate, it has a methoxy group, but in addition, it has a hydroxyl group (OH) attached to the benzene ring. - **IV**: This is a combination of phenol and acetic acid. Phenol consists of a benzene ring with a hydroxyl group, and acetic acid is depicted as a carbonyl group (C=O) connected to a hydroxyl group and a methyl group (CH₃). - **V**: This structure is acetophenone, featuring a benzene ring attached to a carbonyl group, which is connected to a methyl group. Additionally, there is a hydroxyl group on the benzene ring. These structures are foundational in organic chemistry, illustrating aromatic compounds with various esters, alcohols, and acids, showcasing their structural diversity and functional group variations.
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