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Which of the following could accommodate a trans C=C? a. Tetrahedral geometry b. Trigonal planar geometry c. Linear geometry d. Square planar geometry

Which of the following could accommodate a trans C=C? a. Tetrahedral geometry b. Trigonal planar geometry c. Linear geometry d. Square planar geometry
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4 votes
Which of the following could accommodate a trans C=C?

a. Tetrahedral geometry
b. Trigonal planar geometry
c. Linear geometry
d. Square planar geometry

User Horatio Alderaan
by
8.2k points

1 Answer

3 votes

Final answer:

The molecule that can accommodate a trans C=C bond is trigonal planar geometry.

Step-by-step explanation:

The molecule that can accommodate a trans C=C bond is trigonal planar geometry. In trigonal planar geometry, the central carbon atom is surrounded by three other atoms or groups in a flat, triangular arrangement. This arrangement allows for a trans arrangement of the double bond, where the two carbon atoms on either side of the double bond are in the same plane.

User EdJoJob
by
8.8k points
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