Label the hybridization for each non-hydrogen atom and fill in all lone pairs of electrons for the structure provided below. ÇI H2N HO. OH Number of hydrogen atoms: Number of carbon atoms: Number of r bonds: Number of lone pairs of electrons: (do not forget to draw them in)

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### Organic Chemistry Problem: Hybridization and Lone Pairs #### Instructions: Label the hybridization for each non-hydrogen atom and fill in all lone pairs of electrons for the structure provided below. #### Molecular Structure: (An image of a complex organic molecule is shown with various functional groups, including -NH2, -OH, -Cl, and multiple oxygen atoms attached to a ring structure containing sulfur.) #### Tasks: 1. **Determine the Number of Atoms:** - **Number of hydrogen atoms:** ______ - **Number of carbon atoms:** ______ 2. **Identify Bonds:** - **Number of π bonds:** ______ 3. **Lone Pairs:** - **Number of lone pairs of electrons:** ______ (do not forget to draw them in) #### Detailed Explanation for Students: **Hybridization:** - Hybridization involves the mixing of atomic orbitals to form new hybrid orbitals, which influence the bonding and geometry of molecules. - For each non-hydrogen atom, identify whether it is sp, sp2, or sp3 hybridized based on the number of atoms it's bonded to and any presence of lone pairs. **Lone Pairs:** - Lone pairs are pairs of valence electrons that are not shared with another atom and do not participate in bonding. - These must be drawn on the appropriate atoms based on their valence shell configuration. **π Bonds:** - π (pi) bonds are a type of covalent bond that results from the sideways overlap of p-orbitals. They complement sigma bonds and are usually found in double and triple bonds. Ensure you accurately fill out each section based on your analysis of the molecular structure provided. This exercise will help reinforce concepts of molecular geometry, bonding, and electron distribution. --- Note: The rainbow-colored border and number "1" at the bottom right are decorative elements and not part of the chemistry exercise.