Learning Target 8 Criteria for satisfactory score Conversion between projections must be correct (represent the same molecule). Stereoisomeric relationship must be correctly identified. Explanation must be logical and in agreement with the stated stereoisomeric relationship. Tasks 1. Convert the bond-line structure in Figure 6 to its Fischer projection. 2. Determine the stereoisomeric relationship between isomers in Figure 6 and explain your choice. CH3 H- HO- H- CI CH3 ОН ОН H- CH3 isomer A isomer B Figure 6: Isomers

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**Learning Target 8** **Criteria for satisfactory score** Conversion between projections must be correct (represent the same molecule). Stereoisomeric relationship must be correctly identified. Explanation must be logical and in agreement with the stated stereoisomeric relationship. **Tasks** 1. Convert the bond–line structure in Figure 6 to its Fischer projection. 2. Determine the stereoisomeric relationship between isomers in Figure 6 and explain your choice. **Figure 6: Isomers** There are two isomers depicted in Figure 6: - **Isomer A** is shown in a Fischer projection. The structure displays a central carbon chain with vertical and horizontal lines, representing bonds to hydrogen, hydroxyl (OH), and chlorine (Cl) groups. The carbon chain includes: - A top carbon bonded to an oxygen (O) with a methyl group (CH₃). - A middle carbon with hydroxyl (OH) groups on both sides. - A lower carbon with Cl attached on one side and another OH on the other. - The bottom carbon is bonded to a CH₃ group. - **Isomer B** is shown in a bond-line structure. It includes: - A carbon bonded to a Cl and an adjacent carbon double-bonded to oxygen (O) with a CH₃ group. - A carbon connected via single bonds, and the remaining bonds go to OH groups.