Click and drag on elements in orderArrange the type of compound according to increasing boiling point, with the lowest boiling point on top and the highest boiling point on the bottom. Assume you are comparing compounds of similar size.InstructionsDrag and drop application.Choice 1 of 3. Compounds exhibiting dipole-dipole interactions toggle buttonCompounds exhibiting dipole-dipole interactionsChoice 2 of 3. Compounds exhibiting hydrogen bonding toggle buttonCompounds exhibiting hydrogen bondingChoice 3 of 3. Compounds exhibiting London dispersion forces toggle buttonCompounds exhibiting London dispersion forces
Question
Click and drag on elements in orderArrange the type of compound according to increasing boiling point, with the lowest boiling point on top and the highest boiling point on the bottom. Assume you are comparing compounds of similar size.InstructionsDrag and drop application.Choice 1 of 3. Compounds exhibiting dipole-dipole interactions toggle buttonCompounds exhibiting dipole-dipole interactionsChoice 2 of 3. Compounds exhibiting hydrogen bonding toggle buttonCompounds exhibiting hydrogen bondingChoice 3 of 3. Compounds exhibiting London dispersion forces toggle buttonCompounds exhibiting London dispersion forces
Solution
The order of compounds according to increasing boiling point, from lowest to highest, would be:
- Compounds exhibiting London dispersion forces
- Compounds exhibiting dipole-dipole interactions
- Compounds exhibiting hydrogen bonding
This is because London dispersion forces are the weakest intermolecular forces, followed by dipole-dipole interactions, and then hydrogen bonding, which is the strongest. The stronger the intermolecular force, the higher the boiling point of the compound.
Similar Questions
Ordering QuestionClick and drag on elements in orderArrange the following compounds according to increasing intermolecular forces. Place the compound with the weakest intermolecular forces at the top of the list.InstructionsDrag and drop application.Choice 1 of 3. C6H6 toggle buttonC6H6Choice 2 of 3. C8H18 toggle buttonC8H18Choice 3 of 3. CH4 toggle buttonCH4
Ordering QuestionClick and drag on elements in orderRank the intermolecular forces with the strongest intermolecular force on the bottom and the weakest intermolecular force on the top.InstructionsDrag and drop application.Choice 1 of 3. Dipole-dipole interactions toggle buttonDipole-dipole interactionsChoice 2 of 3. London dispersion forces toggle buttonLondon dispersion forcesChoice 3 of 3. Hydrogen bonding toggle buttonHydrogen bonding
Matching QuestionMatch each compound below with the intermolecular forces it is capable of exhibiting.InstructionsDrag and drop application.C3H8C3H8 drop zone empty.CH3ClCH3Cl drop zone empty.CH3OHCH3OH drop zone empty.Only London dispersionLondon dispersion, dipole-dipole interactions, and hydrogen bondingLondon dispersion and dipole-dipole interactions
Matching QuestionCorrectly match each compound with the intermolecular forces it exhibits.InstructionsDrag and drop application.C2H6C2H6 drop zone empty.CH3FCH3F drop zone empty.London dispersion and dipole-dipole interactionsOnly London dispersion forcesNeed help? Review these concept resources.Read About the Concept
For each question, indicate which compound within each pair of molecules with similar molar mass has the higher boiling point and the intermolecular force that has the greatest effect on the difference:
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