What are London dispersion forces primarily associated with?
Understanding London Dispersion Forces
Interactive Video
•
Physics, Chemistry, Science
•
10th - 12th Grade
•
Hard
Mia Campbell
FREE Resource
This video introduces intermolecular forces, focusing on London dispersion forces, which occur between neutral atoms or molecules. It explains how temporary imbalances in electron distribution can induce dipoles, leading to attraction between atoms. The concept of polarizability is discussed, highlighting how larger electron clouds in atoms or molecules result in stronger dispersion forces. The video compares noble gases like helium and argon, illustrating how their boiling points reflect the strength of these forces.
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10 questions
Show all answers
1.
MULTIPLE CHOICE QUESTION
30 sec • 1 pt
Ionic bonds
Covalent bonds
Intermolecular forces
Nuclear forces
2.
MULTIPLE CHOICE QUESTION
30 sec • 1 pt
How do electrons contribute to the formation of temporary dipoles?
By moving in a fixed pattern
By remaining static
By jumping around probabilistically
By aligning with protons
3.
MULTIPLE CHOICE QUESTION
30 sec • 1 pt
What happens when a temporary dipole forms in one atom?
It repels all nearby atoms
It loses its electrons
It induces a dipole in a neighboring atom
It becomes a permanent dipole
4.
MULTIPLE CHOICE QUESTION
30 sec • 1 pt
What is the term used to describe the ease of forming a dipole in an atom or molecule?
Conductivity
Polarizability
Reactivity
Stability
5.
MULTIPLE CHOICE QUESTION
30 sec • 1 pt
Which factor increases the polarizability of an atom?
Smaller electron cloud
Lower molar mass
Larger electron cloud
Higher temperature
6.
MULTIPLE CHOICE QUESTION
30 sec • 1 pt
Why do argon atoms have higher London dispersion forces compared to helium?
Argon has a smaller electron cloud
Argon has a larger electron cloud
Helium is more reactive
Helium has more protons
7.
MULTIPLE CHOICE QUESTION
30 sec • 1 pt
What is the relationship between molar mass and London dispersion forces?
Higher molar mass leads to weaker forces
Lower molar mass leads to stronger forces
Higher molar mass leads to stronger forces
Molar mass has no effect
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