Which of the following molecules would have the strongest London Dispersion Force? A. F² B.Cl² C.Br² D.I²

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JohnE · Answer 1 · 2021-12-04T14:13:41+0000

Answer: D

Step-by-step explanation:

London forces become stronger as the atom in question becomes larger, and to a smaller degree for large molecules. [4] This is due to the increased polarizability of molecules with larger, more dispersed electron clouds. The polarizability is a measure of ease with which electrons can be redistributed; a large polarizability implies that the electrons are more easily redistributed. This trend is exemplified by the halogens (from smallest to largest: F 2 , Cl2 , Br 2 , I 2 ). The same increase of dispersive attraction occurs within and between organic molecules in the order RF<RCL<RBr<RI, or with other more polarizable heteroatoms. [5] Fluorine and chlorine are

gases at room temperature, bromine is a liquid, and iodine is a solid. The London forces are thought to be arise from the motion of electrons.

Which of the following molecules would have the strongest London Dispersion Force? A. F² B.Cl² C.Br² D.I²

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Which of the following molecules would have the strongest London Dispersion Force? A. F² B.Cl² C.Br² D.I²​

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Which of the following molecules would have the strongest London Dispersion Force? A. F² B.Cl² C.Br² D.I²