
Intermolecular Forces Intramolecular Forces
Presentation
•
Chemistry
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9th - 12th Grade
•
Hard
Joseph Anderson
FREE Resource
15 Slides • 13 Questions
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INTER-molecular Forces & Physical Properties
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Strength
Intramolecular bonds > intermolecular forces
Intramolecular bonds are stronger because it would take a lot more energy to overcome covalent bonds and break apart the molecule than to overcome intermolecular forces in between the atoms (to make it become a liquid or gas).
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Multiple Choice
Forces that holds atoms together within the molecule
intermolecular forces
intramolecular forces
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Multiple Choice
Intermolecular Forces are the forces that exist
Between two or more molecules
Within a single molecule
Only in molecules containing carbon
In all molecules
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The polarity of molecules plays a crucial role in determining the strength and type of intermolecular forces. Polar molecules tend to exhibit dipole-dipole interactions and hydrogen bonding, while non-polar molecules can still experience London dispersion forces due to temporary fluctuations in electron distribution. The strength of these forces depends on the degree of polarity in the molecules involved.
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Multiple Choice
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Multiple Choice
The intermolecular force present in all matter is
Hydrogen Bonding
Ionic Bonding
Dipole-Dipole
London or Dispersion
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Multiple Choice
Examples of an intermolecular force include
london disperson
hydrogen bonding
dipole dipole
all of the above
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Multiple Choice
The weakest IMF is
Dipole-Dipole
Dispersion
Hydrogen Bonding
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Multiple Choice
The strongest IMF is
London/Dispersion
Dipole-Dipole
Hydrogen Bonding
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With increasing attraction between molecules in a substance, the phase at room temperature goes from gas (least IMF) to solid (most IMF). The increased attractions between molecules decreases the amount of space between the molecules and decreases the ability of neighboring atoms to move freely without additional input energy.
Some text here about the topic of discussion.
Phase at Room Temperature
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Like dissolves like.” The stronger the intermolecular forces between solute molecule and solvent molecule, the greater the solubility of the solute in the solvent. Which why solubility is the best way to determine the strength of intermolecular forces among bond types
Some text here about the topic of discussion.
Solubility
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Resistance for a substance to flow
With increasing attraction between molecules in a substance, viscosity increases.
Molecule with higher number of IMF are more viscous (stick together more)
Think syrup compared to water and how easily they pour
Some text here about the topic of discussion.
Viscosity
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With increasing attraction between molecules in a substance, the temperature at which a substance boils increases.
The stronger the intermolecular forces between the molecules of a liquid, the greater the energy required to separate the molecules and turn them into gas
Which means a higher boiling point
Higher IMFs = Higher Melting and Boiling Point
Boiling Point/
Melting Point
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Multiple Choice
The weaker the intermolecular forces of a substance the _____________ the boiling point
higher
lower
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Multiple Choice
For hydrogen bonding to occur, a molecule must have a hydrogen bonded to
carbon
another hydrogen
Fluorine, Chlorine or Oxygen
Fluorine, Nitrogen or Oxygen
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Multiple Choice
In general, substances with stronger intermolecular forces have ________ boiling points than those with weaker forces
Higher
Lower
The same
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Multiple Choice
Which substance has the weakest intermolecular forces?
Substance A, boiling point of 75 °C
Substance B, boiling point of 105 °C
Substance C, boiling point of 25 °C
Substance d, boiling point of 45 °C
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Multiple Choice
Which of the following is NOT a type of intramolecular force?
Covalent bonding
Hydrogen bonding
Ionic bonding
Metallic bonding
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Multiple Choice
Rank these in order of strength (strongest to weakest):
London forces
hydrogen bond
dipole-dipole attraction
dipole-dipole>hydrogen bond>London
London>dipole-diple>hydrogen bond
hydrogen bond>dipole-dipole>London
hydrogen bond>London>dipole-dipole
INTER-molecular Forces & Physical Properties
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