Problemas
Why is bromine (Br_(2)) a liquid at room temperature while fluorine (F_(2)) is a gas? Both have london dispersion forces , so what contributes to the different states of matter for those forces.
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Claudia
veterano · Tutor durante 11 años
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Respuesta
The different states of matter for bromine (Br2) and fluorine (F2) at room temperature can be explained by the strength of the London dispersion forces between the molecules.London dispersion forces are a type of van der Waals force that arise due to temporary fluctuations in the electron distribution within a molecule. These fluctuations create temporary dipoles that induce similar dipoles in neighboring molecules, leading to an attractive force between them.The strength of the London dispersion forces depends on the size and shape of the molecules. Larger molecules with more electrons have stronger London dispersion forces because they have a larger electron cloud and can induce stronger dipoles in neighboring molecules.Bromine (Br2) is a larger molecule than fluorine (F2), with more electrons. This means that the London dispersion forces between bromine molecules are stronger than those between fluorine molecules. As a result, bromine has a higher boiling point and is a liquid at room temperature, while fluorine has a lower boiling point and is a gas.In summary, the different states of matter for bromine and fluorine at room temperature are due to the difference in the strength of the London dispersion forces between the molecules, which is influenced by the size and shape of the molecules.