From the top chair structure, select the correctly flipped ring that would result.

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### Understanding Cyclic Compounds and Stereochemistry In organic chemistry, cyclic compounds often exhibit different configurations depending on the spatial arrangement of their substituents. Below is an example where a cyclic compound is presented with a bromine (Br) and a hydroxyl (OH) group attached at different positions on the ring structure. #### Original Structure: The given chemical structure depicts a cyclohexane ring with the following substituents: - A bromine (Br) group attached to one of the carbon atoms. - A hydroxyl (OH) group attached to another carbon atom on the opposite side. #### Possible Configurations: The structure can have different isomeric forms depending on the orientation of the Br and OH groups. Below are various configurations labeled from (a) to (e): - **a)** - The bromine (Br) and hydroxyl (OH) groups are on adjacent carbons, with the Br group pointing upwards (axial position) and the OH group pointing downwards (equatorial position). - **b)** - The bromine (Br) group is bonded to a carbon atom, pointing upwards (axial position). - The hydroxyl (OH) group is attached to the carbon atom in the opposite axial position (with respect to the plane of the ring). - **c)** - The bromine (Br) group is attached to a carbon atom. - The hydroxyl (OH) group is bonded to the adjacent carbon, both substituents are in axial positions, creating a trans configuration in the chair form of cyclohexane. - **d)** - The bromine (Br) and hydroxyl (OH) groups are on adjacent carbons. Both Br and OH substituents are positioned upwards in axial orientations. - **e)** - States "None of these are correct", suggesting that the correct stereoisomer does not match any of the provided configurations. Diagrams like these help students understand stereochemistry and various possible isomers that occur due to the different spatial arrangements. Accurate identification of the right configuration is important for applications in physical, chemical, and biochemical properties of the compounds.