Textbook Question
a. Does SCl2 have a nonzero dipole moment?
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Ch.9 - Molecular Geometry and Bonding Theories
Chapter 9, Problem 40a
a. Consider the AF3 molecules in Exercise 9.27. Which of these will have a nonzero dipole moment?
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Identify the molecular geometry of the AF3 molecules. For example, if A is a central atom and F is a halogen, consider the possible geometries such as trigonal planar or trigonal pyramidal.
Determine the electronegativity difference between the central atom A and the fluorine atoms. Fluorine is highly electronegative, which will influence the dipole moment.
Analyze the symmetry of the molecule. A symmetric molecule (like trigonal planar) may have dipoles that cancel out, resulting in a zero dipole moment.
Consider the presence of lone pairs on the central atom. Lone pairs can affect the geometry, making the molecule asymmetric and potentially resulting in a nonzero dipole moment.
Conclude which AF3 molecules have a nonzero dipole moment based on their geometry and symmetry. Molecules with asymmetrical shapes or lone pairs on the central atom are likely to have a nonzero dipole moment.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Molecular Polarity
Molecular polarity refers to the distribution of electrical charge across a molecule. A molecule is polar if it has a net dipole moment, which occurs when there is an uneven distribution of electron density due to differences in electronegativity between atoms. This results in one end of the molecule being partially positive and the other end being partially negative.
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Molecular Polarity
Dipole Moment
The dipole moment is a vector quantity that measures the separation of positive and negative charges in a molecule. It is calculated as the product of the charge and the distance between the charges. A nonzero dipole moment indicates that the molecule has a polar character, while a zero dipole moment suggests that the molecule is nonpolar, often due to symmetrical charge distribution.
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Symmetry in Molecules
Symmetry plays a crucial role in determining the polarity of a molecule. Molecules with high symmetry, such as those with identical substituents arranged evenly around a central atom, often exhibit nonpolar characteristics because the dipole moments cancel each other out. Conversely, asymmetrical molecules are more likely to have a nonzero dipole moment, leading to polarity.
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