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transitionstate

Answer:

             15 (Fifteen) trigonal planar carbon atoms.

Explanation:

Geometry around Carbon atom is basically controlled by the type of hybridization it follows. Carbon atom gives three types of hybridizations as;

Sp³ Hybridization:

                            In this type carbon atom is involved in making four single bonds with other atoms. Hence, the geometry about sp³ hybridized Carbon is tetrahedral.

Sp² Hybridization:

                            In this type carbon atom is involved in making two single bonds and one double bond with other atoms. Hence, the geometry about sp² hybridized Carbon is trigonal planar.

Sp Hybridization:

                            In this type carbon atom is involved in making one single bond and one triple bond with other atoms. Hence, the geometry about sp hybridized Carbon is linear.

Result:

           In the structure of Metaxanthene there are 15 carbons (highlighted red) which are sp² hybridized. Therefore, there are 15 trigonal planar carbons in Metaxanthene.

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pstnonsonjoku

A trigonal planar molecule is one that is sp2 hybridized.

What is planar molecule?

A planar molecule is one in which all the atoms in the molecule lie along the same plane. Let us note that a trigonal planar molecule is one that is sp2 hybridized.

If we count the number of sp2 hybridized carbon atoms in the molecule, we will discover that we have 15 of those in the molecule mutaxanthene.

Learn more about mutaxanthene: https://brainly.com/question/14019685?

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