Draw the enantiomer of the molecule shown below. Use a dash or wedge bond to indicate stereochemistry of substituents on asymmetric centers, where applicable. OCH3

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**Title: Drawing Enantiomers for Organic Chemistry** **Objective:** Learn how to draw the enantiomer of a given molecule by accurately representing its stereochemistry using dash or wedge bonds. **Instructions:** 1. Observe the given cyclohexane molecule with an OCH₃ group attached. 2. Note the stereochemistry, indicated by wedge bonds, which show the three-dimensional arrangement: - The OCH₃ group is drawn using a wedge bond, indicating it projects outwards. - The line pointing upwards signifies another substituent projecting outwards (though unspecified here). **Task:** - Draw the enantiomer: - Reverse the direction of all wedge bonds to dash bonds, converting outward projections to recessing ones: - The OCH₃ group should be drawn with a dashed bond. - Reverse any other wedge bonds to dashes. **Diagram Details:** - **Initial Molecule:** - A hexagon represents the cyclohexane ring. - A wedge bond extends from the ring with the OCH₃ group attached. - **Enantiomer Drawing Area:** - The space below the task description is designated for sketching the enantiomer by mirroring the original stereochemistry. Engage with these concepts to enhance your understanding of molecular chirality and stereochemical representations. Remember, enantiomers are non-superimposable mirror images, crucial in the study of organic molecules and their interactions.