What is the hybridization of the indicated carbon atom in the compound shown here? NH₂ OH

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### Hybridization of Carbon in a Benzene Derivative **Question:** What is the hybridization of the indicated carbon atom in the compound shown here? **Diagram Explanation:** The diagram depicts a benzene ring with two substituents: 1. An -NH₂ group attached to one of the carbon atoms. 2. An -OH group attached to another carbon atom within the benzene ring. The arrow points specifically to the carbon atom that is bonded to the -NH₂ group, indicating this is the carbon atom for which the hybridization needs to be determined. **Answer:** The hybridization of the indicated carbon atom in the benzene ring is **sp²**. ### Explanation: In benzene derivatives, each carbon in the benzene ring undergoes sp² hybridization. This is because each carbon atom is bonded to three other atoms (two carbon atoms and one substituent, in this case, -NH₂ or -OH). The sp² hybridization allows for the creation of a planar structure with bond angles of approximately 120 degrees, which is characteristic of benzene and its derivatives. The remaining unhybridized p-orbital on each carbon atom overlaps to form the delocalized π-system, which is responsible for benzene's stability.

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### Hybridization of Orbitals - Multiple Choice Question **Question:** Which of the following hybridizations involves one s-orbital and one p-orbital? **Options:** A) sp B) sp² C) sp³ D) sp³d E) sp³d² **Explanation of Options:** 1. **Option A: sp** - This hybridization involves the combination of one s-orbital and one p-orbital. The resulting sp hybrid orbitals have a linear arrangement. 2. **Option B: sp²** - This hybridization involves one s-orbital and two p-orbitals, resulting in three sp² hybrid orbitals arranged in a trigonal planar shape. 3. **Option C: sp³** - This hybridization involves one s-orbital and three p-orbitals, resulting in four sp³ hybrid orbitals arranged in a tetrahedral shape. 4. **Option D: sp³d** - This hybridization involves one s-orbital, three p-orbitals, and one d-orbital, resulting in five sp³d hybrid orbitals arranged in a trigonal bipyramidal shape. 5. **Option E: sp³d²** - This hybridization involves one s-orbital, three p-orbitals, and two d-orbitals, resulting in six sp³d² hybrid orbitals arranged in an octahedral shape. --- To learn more about hybridization and molecular geometry, you can visit our detailed tutorials on orbital hybridization and bonding theories.