Which of the following is an acceptable Lewis structure for methanol (CH3OH)

Which of the following is an acceptable Lewis structure for methanol (CH3OH)? H H C O H H H C=O H H H

The Correct Answer and Explanation is:

The correct Lewis structure for methanol (CH₃OH) is the third option in the image (third from the top).

Correct Answer:

Third structure

Explanation:

Methanol (CH₃OH) is composed of:

• 1 carbon atom (C)
• 4 hydrogen atoms (H)
• 1 oxygen atom (O)

Step-by-step analysis:

1. Carbon forms four bonds.
   Carbon is in group 14 and has 4 valence electrons, so it forms 4 covalent bonds. In methanol, carbon is bonded to three hydrogen atoms and one oxygen atom.
2. Oxygen forms two bonds and has two lone pairs.
   Oxygen is in group 16 and has 6 valence electrons. In methanol, oxygen forms a single bond with the carbon and another single bond with a hydrogen atom (as in the hydroxyl group —OH). This leaves two lone pairs on the oxygen.
3. Each hydrogen forms one bond.
   Hydrogen atoms have 1 valence electron and form only one bond.

The third option correctly shows:

• Carbon bonded to three hydrogens and to one oxygen.
• Oxygen bonded to one hydrogen and to the carbon.
• Two lone pairs on the oxygen.

Why other options are incorrect:

• First option: Oxygen is not bonded to hydrogen, which is incorrect for CH₃OH.
• Second option: Shows a double bond between carbon and oxygen, which is not how methanol is structured. That would resemble formaldehyde, not methanol.
• Fourth option: Oxygen is not bonded to hydrogen again, and there is a lone pair on carbon, which is incorrect since carbon does not carry lone pairs in this structure.

Thus, the third structure is the correct and acceptable Lewis structure for methanol.