Textbook Question
List each set of compounds in order of increasing boiling point.
b. Octane, (CH3)3C—C(CH3)3 and CH3CH2C(CH3)2CH2CH2CH3
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2. Molecular Representations
Intermolecular Forces
3:42 minutesProblem 8a
Textbook Question
Choose the molecule in each pair you'd expect to have the higher boiling point. Explain your reasoning.
(a) eicosane ( C20H42) vs pentadecane
Verified step by step guidance1
Step 1: Understand the relationship between molecular size and boiling point. Larger molecules generally have higher boiling points due to increased van der Waals forces (London dispersion forces) between molecules.
Step 2: Compare the molecular structures of eicosane (C₂₀H₄₂) and pentadecane (C₁₅H₃₂). Eicosane has 20 carbon atoms, while pentadecane has 15 carbon atoms. The larger molecular size of eicosane results in stronger intermolecular forces.
Step 3: Consider the surface area of the molecules. Eicosane, being larger, has a greater surface area, which enhances the strength of London dispersion forces compared to pentadecane.
Step 4: Analyze the boiling point trend in alkanes. As the number of carbon atoms increases, the boiling point increases due to the cumulative effect of stronger intermolecular forces.
Step 5: Conclude that eicosane (C₂₀H₄₂) is expected to have a higher boiling point than pentadecane (C₁₅H₃₂) based on its larger molecular size and stronger intermolecular forces.
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Video duration:
3mKey Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Boiling Point and Molecular Weight
The boiling point of a substance is influenced by its molecular weight; generally, larger molecules have higher boiling points due to increased van der Waals forces. In this case, eicosane (C₂₀H₄₂) has a higher molecular weight than pentadecane (C₁₅H₃₂), suggesting it will have a higher boiling point.
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Intermolecular Forces
Intermolecular forces, particularly London dispersion forces, play a crucial role in determining boiling points. Larger hydrocarbons have more surface area, leading to stronger dispersion forces, which require more energy (heat) to overcome, resulting in higher boiling points for larger molecules.
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Structural Isomerism
Structural isomerism refers to compounds with the same molecular formula but different structural arrangements. In the context of boiling points, isomers can exhibit different boiling points due to variations in their shapes and the resulting differences in intermolecular interactions, although this is less relevant when comparing straight-chain alkanes like eicosane and pentadecane.
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