Indicate whether the pair of structures shown represent stereoisomers, constitutional isomers, different conformations of the same compound, or the same conformation of a compound viewed from a different perspective. Note that cis, trans isomers are an example of stereoisomers. H3C. CH3- Br H₂C CH3- Br

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## Analyzing Isomers and Conformations Indicate whether the pair of structures shown represent **stereoisomers**, **constitutional isomers**, different conformations of the same compound, or the same conformation of a compound viewed from a different perspective. Note that cis, trans isomers are an example of stereoisomers. ### Structure Pairs and Options: 1. **First Pair of Structures**: - **Left Structure**: - Contains a cyclohexane ring with a methyl group (CH₃) and a bromine (Br) atom attached. - **Right Structure**: - Contains a cyclohexane ring with a methyl group (CH₃) and a bromine (Br) atom attached in different positions around the ring. - **Select Classification**: - [Dropdown menu] 2. **Second Pair of Structures**: - **Left Structure**: - Contains a cyclohexane ring with a chlorine (Cl) atom and a methyl group (CH₃) attached. - **Right Structure**: - Contains a cyclohexane ring with a chlorine (Cl) atom and a methyl group (CH₃) attached in different positions around the ring. - **Select Classification**: - [Dropdown menu] ### Detailed Explanation - **Stereoisomers**: Compounds with the same molecular formula and sequence of bonded atoms (constitution) but differ in the 3D orientations of their atoms in space. Examples include cis and trans isomers. - **Constitutional (Structural) Isomers**: Compounds that have the same molecular formula but different connectivity or sequence of atoms and bonds. - **Conformers**: Different spatial orientations of the same molecule that often interconvert via the rotation of bonds, but do not involve the breaking or forming of bonds. Use the dropdown menus to select the appropriate relationship for each pair of structures. This understanding is essential for the study of organic chemistry and the analysis of molecular configurations.