Select the two species that represent resonance structures. Check all that apply. A B C D Part 3 of 3 None of the above A Select the two species that represent constitutional isomers. Check all that apply. B C D X None of the above 5 X

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7.

**Part 2 of 3**

*Select the two species that represent resonance structures. Check all that apply.*

- [ ] A
- [ ] B
- [ ] C
- [ ] D
- [ ] None of the above

---

**Part 3 of 3**

*Select the two species that represent constitutional isomers. Check all that apply.*

- [x] A
- [ ] B
- [ ] C
- [ ] D
- [ ] None of the above

---

There are no graphs or diagrams in the image.
Transcribed Image Text:**Part 2 of 3** *Select the two species that represent resonance structures. Check all that apply.* - [ ] A - [ ] B - [ ] C - [ ] D - [ ] None of the above --- **Part 3 of 3** *Select the two species that represent constitutional isomers. Check all that apply.* - [x] A - [ ] B - [ ] C - [ ] D - [ ] None of the above --- There are no graphs or diagrams in the image.
The image presents four chemical structures labeled A-D. Here is a detailed description of each structure:

- **Structure A:**
  - This compound is an aldehyde. It features a carbon double-bonded to an oxygen atom (carbonyl group) and a hydrogen atom bonded to the same carbon. The structure appears to be an acrolein derivative, with a single C=C bond extending from the carbonyl carbon.

- **Structure B:**
  - This structure is a resonance form of an anion. It has a carbon atom double-bonded to an oxygen atom (carbonyl group), with an additional negative charge on the oxygen indicating it is carrying an extra electron pair. The carbon also has a hydrogen atom attached.

- **Structure C:**
  - In this structure, the carbon atom is double-bonded to an oxygen atom which also carries a positive charge, shown by a plus sign near the oxygen. This is indicative of a resonance structure involving a formal positive charge on the oxygen.

- **Structure D:**
  - This compound is an enol. It features a hydroxyl group (-OH) bonded to a carbon atom that is also part of a C=C double bond. This structure is a tautomer of structure A, indicating the presence of an alcohol group adjacent to a carbon-carbon double bond.

These structures illustrate different resonance and tautomeric forms, common concepts in organic chemistry that involve electron delocalization and structural rearrangements.
Transcribed Image Text:The image presents four chemical structures labeled A-D. Here is a detailed description of each structure: - **Structure A:** - This compound is an aldehyde. It features a carbon double-bonded to an oxygen atom (carbonyl group) and a hydrogen atom bonded to the same carbon. The structure appears to be an acrolein derivative, with a single C=C bond extending from the carbonyl carbon. - **Structure B:** - This structure is a resonance form of an anion. It has a carbon atom double-bonded to an oxygen atom (carbonyl group), with an additional negative charge on the oxygen indicating it is carrying an extra electron pair. The carbon also has a hydrogen atom attached. - **Structure C:** - In this structure, the carbon atom is double-bonded to an oxygen atom which also carries a positive charge, shown by a plus sign near the oxygen. This is indicative of a resonance structure involving a formal positive charge on the oxygen. - **Structure D:** - This compound is an enol. It features a hydroxyl group (-OH) bonded to a carbon atom that is also part of a C=C double bond. This structure is a tautomer of structure A, indicating the presence of an alcohol group adjacent to a carbon-carbon double bond. These structures illustrate different resonance and tautomeric forms, common concepts in organic chemistry that involve electron delocalization and structural rearrangements.
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