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1 Which statement can be explained by intermolecular hydrogen bonding? A Ethanol has a higher boiling point than propane. B Hydrogen chloride has a higher boiling point than silane, \( \mathrm{SiH}_{4} \). propa C Hydrogen iodide forms an acidic solution when dissolved in water. C CH D Propanone has a higher boiling point than propane. C

Ask by Sullivan Harper. in Malaysia
Mar 10,2025

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Ethanol has a higher boiling point than propane because it can form hydrogen bonds.

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**Step 1: Analyze the Compounds** - **Ethanol**: Its molecular formula is \(\mathrm{C}_2\mathrm{H}_5\mathrm{OH}\). The hydroxyl (\(-\mathrm{OH}\)) group allows the formation of hydrogen bonds between molecules. - **Propane**: Its molecular formula is \(\mathrm{C}_3\mathrm{H}_8\). It only exhibits weak London dispersion forces without any hydrogen bonding. **Step 2: Compare Boiling Points** Hydrogen bonds are much stronger than dispersion forces. Therefore, substances that can form hydrogen bonds typically have higher boiling points because more energy is required to overcome these strong intermolecular attractions. **Step 3: Conclusion** Since ethanol can form hydrogen bonds and propane cannot, ethanol has a higher boiling point than propane. This observation is explained by the presence of hydrogen bonding in ethanol. **Answer:** A Ethanol has a higher boiling point than propane.

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Ethanol has a higher boiling point than propane because of the presence of intermolecular hydrogen bonding. Ethanol, with its –OH group, can form strong hydrogen bonds between its molecules, while propane, being a non-polar hydrocarbon, relies solely on weaker Van der Waals forces. This substantial difference in intermolecular forces results in ethanol requiring more energy (i.e., a higher temperature) to boil compared to propane. Additionally, let's consider why molecules engage in these unique interactions! When a hydrogen atom is covalently bonded to a highly electronegative atom like oxygen or nitrogen, it can develop a positive charge that attracts the negative regions of nearby molecules. This interaction forms stronger bonds compared to typical dipole-dipole or London dispersion forces, shedding light on why substances with hydrogen bonds can have unexpectedly high boiling points and unique properties in various environments.

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