2.4.1 Types of Intermolecular Forces

Cards (37)

  • What are intermolecular forces?
    Forces between molecules
  • Intermolecular forces are stronger than bonds within molecules.
    False
  • Match the force type with its relative strength:
    Covalent Bonds ↔️ Strong
    Intermolecular Forces ↔️ Weak
  • What physical properties are influenced by intermolecular forces?
    Boiling points and viscosity
  • Intermolecular forces are weaker than bonds within molecules
  • What are the three main types of intermolecular forces?
    London Dispersion, Dipole-Dipole, Hydrogen
  • Between what molecules do London Dispersion Forces act?
    All molecules
  • London Dispersion Forces arise from temporary fluctuations in electron distribution
  • Dipole-Dipole Forces are stronger than London Dispersion Forces.
  • What molecules must be present for hydrogen bonding to occur?
    H bonded to O, N, or F
  • Hydrogen bonding involves strong attraction between a hydrogen atom and a lone pair of electrons on an electronegative atom
  • What type of intermolecular force acts between all molecules and is the weakest?
    London Dispersion Forces
  • What type of intermolecular force acts only between polar molecules and is moderate in strength?
    Dipole-Dipole Forces
  • Hydrogen bonds are the strongest type of intermolecular force.
  • What creates temporary dipoles in London Dispersion Forces?
    Electron fluctuations
  • What is the strength of London Dispersion Forces proportional to?
    1r6\frac{1}{r^{6}}
  • London Dispersion Forces arise from temporary fluctuations in electron distribution
  • London Dispersion Forces are the strongest type of intermolecular force.
    False
  • Match the type of intermolecular force with its relative strength:
    London Dispersion ↔️ Weakest
    Dipole-Dipole ↔️ Moderate
    Hydrogen Bonds ↔️ Strongest
  • What type of intermolecular force acts between all molecules, whether polar or nonpolar?
    London Dispersion Forces
  • London Dispersion Forces arise from temporary fluctuations in electron distribution
  • London Dispersion Forces are the weakest type of intermolecular force.
  • What type of molecules can form hydrogen bonds?
    Molecules with H bonded to O, N, or F
  • Intermolecular forces are weaker than bonds within molecules
  • Match the type of force with its description:
    Covalent Bonds ↔️ Forces within molecules
    Intermolecular Forces ↔️ Forces between molecules
  • The strength of London Dispersion Forces is inversely proportional to the sixth power of the distance between molecules.
  • What are the three main types of intermolecular forces?
    London Dispersion, Dipole-Dipole, Hydrogen Bonds
  • Order the intermolecular forces from weakest to strongest:
    1️⃣ London Dispersion Forces
    2️⃣ Dipole-Dipole Forces
    3️⃣ Hydrogen Bonds
  • What causes London Dispersion Forces in all molecules?
    Temporary fluctuations in electron distribution
  • London Dispersion Forces are present in both polar and nonpolar molecules.
  • Dipole-Dipole Forces occur between polar molecules with permanent dipoles
  • What type of attraction causes dipole-dipole forces?
    Attraction between permanent dipoles
  • Dipole-Dipole Forces are stronger than London Dispersion Forces.
  • Under what conditions does hydrogen bonding occur?
    H bonded to O, N, or F
  • Hydrogen bonding involves a hydrogen atom and a lone pair of electrons on an electronegative atom
  • Hydrogen bonds are stronger than dipole-dipole forces but weaker than London Dispersion Forces.
    False
  • Which intermolecular force is the strongest?
    Hydrogen Bonds