Check the box under each structure in the table that is an enantiomer of the molecule shown below. If none of them are, check the none of the above box under the table. Ø OH Molecule 1 OH Molecule 4 OH none of the above Molecule 2 HO Molecule 5 OH Molecule 3 но. Molecule 6 HO..... □ X Ś

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**Stereochemistry and Enantiomers Identification Activity** **Instructions:** Examine the structure of the molecule provided at the top of the diagram. Identify which of the structures in the table below is an enantiomer of the given molecule. If none of the structures qualify as an enantiomer, select "none of the above." **Molecule Details:** - **Original Molecule:** The reference molecule is a cyclopentane with a hydroxyl group (OH) attached to the first carbon, depicted in a 3D perspective with solid and dashed wedges representing different orientations. **Table of Molecules:** 1. **Molecule 1:** Features a similar base structure with an OH group at the top in a different orientation from the reference molecule. 2. **Molecule 2:** Displays an OH group pointing downwards with opposite wedged bonds compared to the reference. 3. **Molecule 3:** The OH group is pointing towards the front, wedged inversely from the reference. 4. **Molecule 4:** Displays an OH oriented similarly as Molecule 1 but on a different carbon position. 5. **Molecule 5:** The OH group is on the same side as Molecule 2 but the perspective is altered. 6. **Molecule 6:** The OH group again showing a direction and wedged bonds not matching the original molecule. - **Check Box Options:** There are checkboxes beneath each molecule for selection, and an additional option labeled "none of the above." **Objective:** Recognize the enantiomer by understanding stereochemistry and chiral centers. Only the precise mirror image, with all orientations opposite, qualifies as an enantiomer. **Note:** Enantiomers have identical physical properties except for the direction in which they rotate plane-polarized light and their interactions with other chiral molecules.