Textbook Question
- CH3N2+
- HNO3
- N3-
- CH3CONH2
- O3
b. Draw a structure for each of the species that shows approximate bond angles.
c. Which species have no dipole moment?
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1. A Review of General Chemistry
Electronegativity
1:48 minutesProblem 13
Textbook Question
Explain why HCl has a smaller dipole moment than HF, even though the H—Cl bond is longer than the H—F bond.
Verified step by step guidance1
Dipole moment (μ) is calculated using the formula: , where is the magnitude of the charge separation and is the bond length. While bond length () is a factor, the magnitude of the charge separation () plays a critical role in determining the dipole moment.
The electronegativity of fluorine (F) is significantly higher than that of chlorine (Cl). This means that the electron density in the H—F bond is pulled more strongly toward the fluorine atom, resulting in a larger charge separation () compared to the H—Cl bond.
Although the H—Cl bond is longer than the H—F bond, the smaller charge separation in the H—Cl bond due to chlorine's lower electronegativity reduces its contribution to the dipole moment.
In the case of H—F, the combination of a shorter bond length and a much larger charge separation results in a higher dipole moment compared to H—Cl.
Thus, the smaller dipole moment of HCl is primarily due to the lower electronegativity of chlorine, which leads to a smaller charge separation, even though the bond length is longer.
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Video duration:
1mKey Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Electronegativity
Electronegativity is a measure of an atom's ability to attract and hold onto electrons in a chemical bond. In the case of HCl and HF, fluorine is more electronegative than chlorine, which means that the H—F bond has a greater polarity. This difference in electronegativity contributes significantly to the dipole moment, as the more electronegative atom (F) pulls the electron density closer, creating a stronger dipole.
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Bond Length and Dipole Moment
The dipole moment of a molecule is influenced by both the bond length and the difference in electronegativity between the bonded atoms. Although H—Cl is longer than H—F, the dipole moment is not solely determined by bond length. The greater electronegativity of fluorine results in a stronger dipole moment in HF, despite the shorter bond length, leading to a higher overall dipole moment compared to HCl.
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Vector Nature of Dipole Moments
Dipole moments are vector quantities, meaning they have both magnitude and direction. The overall dipole moment of a molecule is the vector sum of the individual bond dipoles. In HCl, the bond dipole is less significant due to the lower electronegativity of chlorine compared to fluorine, resulting in a smaller net dipole moment for HCl, despite the longer bond length.
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