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. Br t ******** CI H Molecule 1 CI Explanation H Molecule 4 H Br OH " Br CI Onone of the above Check Molecule 2 Molecule 3 Br CI www CI H Br H Molecule 5 Molecule 6 CI H H Br Br H "CI X 3 2023 McGraw Hill LLC. All Rights Reserved. Terms of Use | Privacy Center Acce

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Title: Identifying Enantiomers in Organic Molecules

Description:

In this exercise, you are tasked with identifying the enantiomer of a given molecule. The reference molecule features a central carbon atom bonded to a bromine (Br), a chlorine (Cl), and a hydrogen (H) atom.

Task: 
Check the box beneath the structure in the table that represents an enantiomer of the reference molecule. If none of the options is an enantiomer, select "none of the above."

Structures:

- **Molecule 1:**
  - Chlorine (Cl) is positioned on the left.
  - Bromine (Br) is on the bottom.
  - Hydrogen (H) is on the right.
  - Check box available.

- **Molecule 2:**
  - Hydrogen (H) is on the top.
  - Chlorine (Cl) is on the right.
  - Bromine (Br) is on the bottom.
  - Check box available.

- **Molecule 3:**
  - Bromine (Br) is on the top.
  - Chlorine (Cl) is on the left.
  - Hydrogen (H) is on the right.
  - Check box available.

- **Molecule 4:**
  - Hydroxyl group (OH) is on the top.
  - Hydrogen (H) is on the left.
  - Bromine (Br) is on the bottom.
  - Chlorine (Cl) is on the right.
  - Check box available.

- **Molecule 5:**
  - Hydrogen (H) is on the top.
  - Chlorine (Cl) is on the left.
  - Bromine (Br) is on the bottom.
  - Check box available.

- **Molecule 6:**
  - Hydrogen (H) is on the top.
  - Bromine (Br) is on the left.
  - Chlorine (Cl) is on the bottom.
  - Check box available.

- **None of the above** option available.

Instructions:
- Analyze the spatial arrangement of the atoms in each molecule relative to the reference molecule.
- Determine if any structure is an enantiomer, which means it should be a non-superimposable mirror image of the reference molecule.
- Use the available check boxes to indicate your selection.
Transcribed Image Text:Title: Identifying Enantiomers in Organic Molecules Description: In this exercise, you are tasked with identifying the enantiomer of a given molecule. The reference molecule features a central carbon atom bonded to a bromine (Br), a chlorine (Cl), and a hydrogen (H) atom. Task: Check the box beneath the structure in the table that represents an enantiomer of the reference molecule. If none of the options is an enantiomer, select "none of the above." Structures: - **Molecule 1:** - Chlorine (Cl) is positioned on the left. - Bromine (Br) is on the bottom. - Hydrogen (H) is on the right. - Check box available. - **Molecule 2:** - Hydrogen (H) is on the top. - Chlorine (Cl) is on the right. - Bromine (Br) is on the bottom. - Check box available. - **Molecule 3:** - Bromine (Br) is on the top. - Chlorine (Cl) is on the left. - Hydrogen (H) is on the right. - Check box available. - **Molecule 4:** - Hydroxyl group (OH) is on the top. - Hydrogen (H) is on the left. - Bromine (Br) is on the bottom. - Chlorine (Cl) is on the right. - Check box available. - **Molecule 5:** - Hydrogen (H) is on the top. - Chlorine (Cl) is on the left. - Bromine (Br) is on the bottom. - Check box available. - **Molecule 6:** - Hydrogen (H) is on the top. - Bromine (Br) is on the left. - Chlorine (Cl) is on the bottom. - Check box available. - **None of the above** option available. Instructions: - Analyze the spatial arrangement of the atoms in each molecule relative to the reference molecule. - Determine if any structure is an enantiomer, which means it should be a non-superimposable mirror image of the reference molecule. - Use the available check boxes to indicate your selection.
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