Which hybridization leads to a trigonal planar geometry?

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Multiple Choice

Which hybridization leads to a trigonal planar geometry?

Explanation:
Trigonal planar geometry arises when a central atom has three regions of electron density arranged in one plane, about 120° apart. This arrangement is described by sp2 hybridization: mixing one s and two p orbitals to form three equivalent sp2 hybrids. These three hybrids lie in a plane and point 120° from each other, forming the three sigma bonds to surrounding atoms. The remaining p orbital stays unhybridized and can participate in pi bonding if the molecule has a double bond, but it does not affect the in-plane arrangement of the three sigma bonds. That’s why sp2 is the correct description for trigonal planar shapes, as opposed to sp3 (four bonds in a tetrahedral arrangement), sp (two bonds in a linear arrangement), or dsp2 (square planar geometries more common in certain transition-metal complexes).

Trigonal planar geometry arises when a central atom has three regions of electron density arranged in one plane, about 120° apart. This arrangement is described by sp2 hybridization: mixing one s and two p orbitals to form three equivalent sp2 hybrids. These three hybrids lie in a plane and point 120° from each other, forming the three sigma bonds to surrounding atoms. The remaining p orbital stays unhybridized and can participate in pi bonding if the molecule has a double bond, but it does not affect the in-plane arrangement of the three sigma bonds. That’s why sp2 is the correct description for trigonal planar shapes, as opposed to sp3 (four bonds in a tetrahedral arrangement), sp (two bonds in a linear arrangement), or dsp2 (square planar geometries more common in certain transition-metal complexes).

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