Indicate the hybridization of each non-hydrogen atom in the following molecule. Also, indicate the orbitals that are overlapping to form each bond. H H H-C=C C-C-H

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Chapter1: Chemical Foundations
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The image presents a chemical structure for analysis with the following instructions:

**Instructions:**
Indicate the hybridization of each non-hydrogen atom in the molecule shown. Also, indicate the orbitals that are overlapping to form each bond.

**Chemical Structure:**
The molecule consists of four carbon atoms and one oxygen atom. Here's a description of the molecular structure:

- The first carbon (leftmost) is bonded to three hydrogen atoms and one carbon atom.
- The second carbon is bonded to one hydrogen atom, the first carbon, and the third carbon.
- The third carbon forms a double bond with an oxygen atom and is also bonded to the second carbon.
- The fourth carbon (rightmost) is bonded to two hydrogen atoms and the second carbon.

**Orbital Hybridization and Overlaps:**

1. **First Carbon Atom (C)**
   - Hybridization: sp³ (four sigma bonds)
   - Bond overlapping:
     - C-H bonds are formed using sp³-s orbital overlap.
     - C-C bond with the second carbon is formed using sp³-sp² orbital overlap.

2. **Second Carbon Atom (C)**
   - Hybridization: sp² (three sigma bonds and one π bond)
   - Bond overlapping:
     - C-H bond is formed using sp²-s orbital overlap.
     - C-C bond with the first carbon is formed using sp²-sp³ orbital overlap.
     - C-C bond with the third carbon is formed using sp²-sp² orbital overlap (includes part of π bonding).

3. **Third Carbon Atom (C)**
   - Hybridization: sp² (two sigma bonds and one π bond)
   - Bond overlapping:
     - C-C bond with the second carbon is formed using sp²-sp² orbital overlap (includes part of π bonding).
     - C=O bond is formed with one sp² orbital of carbon overlapping with one sp² orbital of oxygen (sigma bond) and p-p orbital overlap for the π bond.

4. **Oxygen Atom (O)**
   - Hybridization: sp² (two lone pairs, one sigma bond, and one π bond)
   - Bond overlapping:
     - C=O bond is formed with the double bond involving one sp² orbital of oxygen overlapping with the sp² orbital of carbon (sigma bond) and a p orbital overlap for the π bond.

5. **Fourth Carbon Atom (C)**
   - Hybridization: sp³ (four
Transcribed Image Text:The image presents a chemical structure for analysis with the following instructions: **Instructions:** Indicate the hybridization of each non-hydrogen atom in the molecule shown. Also, indicate the orbitals that are overlapping to form each bond. **Chemical Structure:** The molecule consists of four carbon atoms and one oxygen atom. Here's a description of the molecular structure: - The first carbon (leftmost) is bonded to three hydrogen atoms and one carbon atom. - The second carbon is bonded to one hydrogen atom, the first carbon, and the third carbon. - The third carbon forms a double bond with an oxygen atom and is also bonded to the second carbon. - The fourth carbon (rightmost) is bonded to two hydrogen atoms and the second carbon. **Orbital Hybridization and Overlaps:** 1. **First Carbon Atom (C)** - Hybridization: sp³ (four sigma bonds) - Bond overlapping: - C-H bonds are formed using sp³-s orbital overlap. - C-C bond with the second carbon is formed using sp³-sp² orbital overlap. 2. **Second Carbon Atom (C)** - Hybridization: sp² (three sigma bonds and one π bond) - Bond overlapping: - C-H bond is formed using sp²-s orbital overlap. - C-C bond with the first carbon is formed using sp²-sp³ orbital overlap. - C-C bond with the third carbon is formed using sp²-sp² orbital overlap (includes part of π bonding). 3. **Third Carbon Atom (C)** - Hybridization: sp² (two sigma bonds and one π bond) - Bond overlapping: - C-C bond with the second carbon is formed using sp²-sp² orbital overlap (includes part of π bonding). - C=O bond is formed with one sp² orbital of carbon overlapping with one sp² orbital of oxygen (sigma bond) and p-p orbital overlap for the π bond. 4. **Oxygen Atom (O)** - Hybridization: sp² (two lone pairs, one sigma bond, and one π bond) - Bond overlapping: - C=O bond is formed with the double bond involving one sp² orbital of oxygen overlapping with the sp² orbital of carbon (sigma bond) and a p orbital overlap for the π bond. 5. **Fourth Carbon Atom (C)** - Hybridization: sp³ (four
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