What Are Intermolecular Forces | Properties of Matter | Chemistry | FuseSchool

FuseSchool - Global Education

2 Jun 201605:18

Summary

TLDRThis video explores intermolecular forces, highlighting three key types: permanent dipole-dipole forces, hydrogen bonds, and van der Waals forces. It explains how these forces, though weaker than ionic or covalent bonds, significantly influence the physical properties of compounds, such as the state of water and alcohol at room temperature.

Takeaways

🔬 Intermolecular forces are the attractive forces between neighboring molecules, distinct from the ionic or covalent bonds that bind atoms and ions in compounds.
🧲 There are three common types of intermolecular forces: permanent dipole-dipole forces, hydrogen bonds, and van der Waals forces.
🌟 Permanent dipole-dipole forces occur in polar molecules where different electronegativities of atoms create a dipole, exemplified by the attraction between the chlorine atom's delta negative and hydrogen atom's delta positive in hydrogen chloride (HCl).
🔗 Hydrogen bonds are a special type of dipole-dipole attraction, notably stronger than general dipole-dipole forces, occurring between a hydrogen atom and a fluorine, oxygen, or nitrogen atom in a neighboring molecule.
💧 The presence of hydrogen bonds significantly impacts the physical properties of compounds, such as preventing water and alcohol from being gases at room temperature and pressure.
📚 Van der Waals forces are induced dipole-dipole interactions that arise from the movement of electrons, creating an instantaneous dipole at any given moment.
🌐 Van der Waals forces are present in all molecules, polar or non-polar, but they are the only intermolecular forces between non-polar molecules like halogens and noble gases.
📈 The strength of van der Waals forces increases with the number of electrons in a molecule, explaining the rise in boiling points as you move down the groups of halogens and noble gases.
🌡️ The physical properties of compounds, such as boiling and melting points, are influenced by the interplay of these intermolecular forces.
📚 Understanding the differences between these intermolecular forces is crucial for grasping the behavior of molecules in various states and conditions.

Q & A

What is an intermolecular force?
-An intermolecular force is an attractive force between neighboring molecules.
How many common types of intermolecular forces are there?
-There are three common types of intermolecular forces.
What are the three common types of intermolecular forces?
-The three common types of intermolecular forces are permanent dipole-dipole forces, hydrogen bonds, and van der Waals forces.
Why are intermolecular forces weaker than ionic or covalent bonds?
-Intermolecular forces are weaker than ionic or covalent bonds because they involve attractions between molecules rather than the strong bonds that hold atoms and ions together in elements and compounds.
What is a polar molecule and how does it relate to permanent dipole-dipole forces?
-A polar molecule is one in which there is a permanent dipole, usually arising because the different atoms in the molecule have different electronegativities. This leads to the formation of permanent dipole-dipole forces between molecules.
Can you give an example of a polar molecule and explain its dipole-dipole forces?
-Hydrogen chloride (HCl) is an example of a polar molecule. The electrons in the hydrogen-chlorine bond are closer to the chlorine atom, creating a dipole with a partial positive charge on hydrogen and a partial negative charge on chlorine. This results in an attraction between the negative end of one molecule and the positive end of another.
What is a hydrogen bond and how is it different from a regular dipole-dipole force?
-A hydrogen bond is a special type of dipole-dipole attraction between the electron-deficient hydrogen (H+) of one molecule and the lone pair of electrons on a fluorine, oxygen, or nitrogen atom of another molecule. It is stronger than a regular dipole-dipole force due to the specific interaction between these atoms.
Why are hydrogen bonds significant in the physical properties of compounds?
-Hydrogen bonds, despite being weaker than covalent bonds, have a significant effect on the physical properties of compounds. For example, without hydrogen bonds, water and alcohol would be gases at room temperature and pressure.
What are van der Waals forces and how do they differ from other intermolecular forces?
-Van der Waals forces are induced dipole-dipole interactions that occur in all molecules, whether polar or nonpolar. They arise from the movement of electrons in the shells, creating an instantaneous dipole at any given moment. Unlike permanent dipole-dipole forces and hydrogen bonds, van der Waals forces are the only intermolecular forces between nonpolar molecules.
How does the number of electrons in a molecule affect van der Waals forces?
-As the number of electrons in a molecule increases, so do the van der Waals forces. This explains why there is an increase in boiling points as you go down the group of halogens and noble gases.
Why are van der Waals forces the only intermolecular forces between nonpolar molecules?
-Van der Waals forces are the only intermolecular forces between nonpolar molecules because they arise from temporary, induced dipoles that can occur in any molecule, regardless of its polarity. Permanent dipole-dipole forces and hydrogen bonds require specific polar or hydrogen bonding interactions that are not present in nonpolar molecules.