London Dispersion Forces. A nonpolar molecule is a molecule that has a symmetrical shape. A nonpolar molecule is a molecule in which the electrons are.

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Presentation transcript:

London Dispersion Forces

A nonpolar molecule is a molecule that has a symmetrical shape. A nonpolar molecule is a molecule in which the electrons are usually able to distribute themselves in a balanced manner. A nonpolar molecule is a molecule with NO permanent positive or permanent negative end. London Dispersion Forces C H H HH H     OOC

London Dispersion Forces As the electrons move about the molecule, they are usually spread out in a balanced manner.

This balanced arrangement of the electrons causes the molecule to have no permanent positive or negative end. London Dispersion Forces

How do molecules without permanent positive and negative ends attract each other? ? London Dispersion Forces

In their random movements, the electrons sometimes are NOT distributed in a balanced manner around the molecule! London Dispersion Forces When this happens, a temporary polar molecule is formed! δ+δ+ δ-δ-

London dispersion forces are weak intermittent forces between nonpolar molecules. A temporary polar molecule will cause neighboring nonpolar molecules to become temporary polar molecules. δ+δ+ δ-δ- δ+δ+ δ-δ- London Dispersion Forces

The forces that hold the individual atoms in CO 2 molecules together are covalent bonds. The forces that hold CO 2 molecules to each other in a sample of dry ice are London dispersion forces. OOC==   OOC==   OOC==   OOC==   OOC==   OOC==   OOC==   OOC==   OOC==   London Dispersion Forces

Generally, the more massive the nonpolar molecule is, the stronger the London dispersion forces will be and the stronger the London dispersion forces is, the higher the boiling point will be! H 2 ---H 2 O 2 ---O 2 CO 2 ---CO 2 MM = 2 g/mol MM = 32 g/mol MM = 44 g/mol bp = 20 K bp = 90 K bp = 195 K Cl 2 ---Cl 2 Br 2 ---Br 2 MM = 71 g/mol MM = 160 g/mol bp = 238 K bp = 332 K London Dispersion Forces