♥ Draw Lewis structures for each of the following. Give the total number of valence electrons, select from the lists the number of Regions of Electron Density (REDs) around the central atom, the molecular shape, and the bond angles. ♥ Do not put covalent bonds between metals and nonmetals. ♥ Put brackets around anions to show both charge and quantity. 1. HCI hydrogen chloride valence e = REDS = shape= bond angles 2. CCl4 = valence e = REDS = shape= bond angles = carbon tetrachloride REDS 0, no central atom 2 3 4 Shapes tetrahedral pyramidal bent trigonal planar linear diatomic monatomic ions Bond Angles 109.5⁰ 120⁰ 180⁰

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**Understanding Molecular Structures and Bond Angles** **Instructions:** - Draw Lewis structures for each of the following compounds. Determine the total number of valence electrons, select the corresponding number of Regions of Electron Density (REDs) around the central atom, identify the molecular shape, and calculate the bond angles. - Avoid forming covalent bonds between metals and nonmetals. - Use brackets to indicate anions, showing both charge and quantity. **Examples:** 1. **HCl (hydrogen chloride)** - **Valence Electrons:** - **REDs:** - **Shape:** - **Bond Angles:** 2. **CCl₄ (carbon tetrachloride)** - **Valence Electrons:** - **REDs:** - **Shape:** - **Bond Angles:** **Reference Lists:** **Regions of Electron Density (REDs):** - 0, no central atom - 2 - 3 - 4 **Shapes:** - Tetrahedral - Pyramidal - Bent - Trigonal planar - Linear - Diatomic - Monatomic ions **Bond Angles:** - 109.5° - 120° - 180° - None, no central atom Utilize this guide to accurately represent the molecular configuration and geometry of each compound.