For each compound in the table below, decide whether there would be any hydrogen-bonding force between molecules of the compound, or between molecules of the compound and molecules of water. name acetic acid ammonia compound dibromomethane formula or Lewis structure H :O: | || H-C-C-0-H H NH, CH₂Br₂ Between molecules of the compound? O yes 00 O no O yes O no hydrogen-bonding force O yes O no Between molecules of the compound and molecules of water? O yes Ono O yes O no O yes O no X 5

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For each compound in the table below, decide whether there would be any hydrogen-bonding force between molecules of the compound, or between molecules of the compound and molecules of water. | Compound | Hydrogen-bonding force | |-----------------|------------------------------------------------------------------| | **Name** | **Formula or Lewis Structure** | **Between molecules of the compound?** | **Between molecules of the compound and molecules of water?** | | Acetic acid |  | O Yes, O No | O Yes, O No | | | H O | | | | | \ || | | | | | C - C - O - H | | | | | | | | | | | H | | | | Ammonia | NH₃ | O Yes, O No | O Yes, O No | | Dibromomethane | CH₂Br₂ | O Yes, O No | O Yes, O No | ### Diagram Explanation - **Acetic Acid Structure:** This structure shows the arrangement of hydrogen, oxygen, and carbon atoms in acetic acid, with single and double bonds depicted. - **Hydrogen-bonding force columns:** These columns prompt the evaluation of whether hydrogen-bonding exists between: - Molecules of the compound itself. - Molecules of the compound and water molecules. Participants are expected to decide and select the appropriate options based on their understanding of hydrogen bonding.