Describe the atomic hybrid orbitals that make up the C-N1 o bond in methyl azide, shown below. What about the N2-N3 n bond? (any nonbonding pair of electrons have been omitted) H3C

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**Text for Educational Website:** **Title: Understanding the Hybrid Orbitals in Methyl Azide** **Introduction:** The inquiry into atomic hybrid orbitals grants insight into the molecular structure and bonding characteristics of compounds. This exploration focuses on the hybrid orbitals forming the C-N₁ σ bond in methyl azide, as well as the N₂-N₃ π bond. **Description:** The diagram illustrates the structure of methyl azide (CH₃N₃), showcasing: - A C-N₁ σ bond. - An N₂-N₃ π bond. - The molecular representation omits any nonbonding pairs of electrons for clarity. **Analysis:** - **C-N₁ σ Bond:** The carbon atom utilizes sp³ hybrid orbitals to form a sigma (σ) bond with nitrogen (N₁). This hybridization involves the mixing of one s orbital and three p orbitals from carbon, leading to a tetrahedral geometry around the carbon atom. - **N₂-N₃ π Bond:** The N₂-N₃ bond involves π-bonding, where unhybridized p orbitals from N₂ and N₃ overlap side-by-side. This π-bond complements the sigma bonding framework, providing additional stability and rigidity to the molecular structure. **Conclusion:** Understanding these specific orbital interactions helps underscore the dynamic nature of molecular bonding in methyl azide, which plays a pivotal role in its chemical properties and reactivity.