•1.The VSEPR (Valence Shell Electron Pair Repulsion) theory predicts geometric shapes based on electron pair repulsion in the valence shell.
2. VSEPR theory doesn't directly apply to coordinate covalent bonds, where both electrons come from the same atom.
3.Coordinate covalent bonds involve electron pair sharing, but VSEPR theory focuses on repulsion around the central atom, unaffected by the source of the electrons.
4. The theory is a valuable tool for predicting shapes in typical covalent compounds.
5. However, it may not directly address the unique geometry around atoms involved in coordinate covalent bonds.
No, VSEPR does not apply to ionic substances. VSEPR predicts the shape of a covalent molecule by looking at the covalent bonds. The ionic compound does not share electrons. They are bonded because of charge instead of electron pair sharing.
Answers & Comments
Explanation:
•1.The VSEPR (Valence Shell Electron Pair Repulsion) theory predicts geometric shapes based on electron pair repulsion in the valence shell.
2. VSEPR theory doesn't directly apply to coordinate covalent bonds, where both electrons come from the same atom.
3.Coordinate covalent bonds involve electron pair sharing, but VSEPR theory focuses on repulsion around the central atom, unaffected by the source of the electrons.
4. The theory is a valuable tool for predicting shapes in typical covalent compounds.
5. However, it may not directly address the unique geometry around atoms involved in coordinate covalent bonds.
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No, VSEPR does not apply to ionic substances. VSEPR predicts the shape of a covalent molecule by looking at the covalent bonds. The ionic compound does not share electrons. They are bonded because of charge instead of electron pair sharing.
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