Science

Lewis structures.

Definition

Lewis structures are diagrams that show the bonding between atoms in a molecule and the lone pairs of electrons that may exist. They help predict molecular geometry, bond order, and reactivity by illustrating how valence electrons are distributed.

How it works · 6 phases

Step by step.

  1. Count the total number of valence electrons from all atoms (adjust for charge if it's an ion).
  2. Identify the central atom (usually the least electronegative element, never hydrogen).
  3. Place single bonds between the central atom and each surrounding atom, using 2 electrons per bond.
  4. Distribute remaining electrons as lone pairs on outer atoms to satisfy the octet rule.
  5. Place any leftover electrons on the central atom as lone pairs.
  6. If the central atom lacks an octet, convert lone pairs from adjacent atoms into double or triple bonds.
Examples

Real-world.

  • 1 Water (H₂O) has two bonding pairs and two lone pairs on the oxygen atom
  • 2 Carbon dioxide (CO₂) has two double bonds and no lone pairs on carbon
  • 3 Ozone (O₃) requires resonance structures to accurately represent its electron distribution
Key Fact

Most atoms follow the octet rule (8 electrons); hydrogen follows the duet rule (2 electrons).

Related terms

Tangled up with.

Vsepr → Covalent bonds → Electronegativity → Resonance →
Studied in

2 units use this concept.

AP Chemistry Molecular and Ionic Bonding → Chemistry Chemical Bonding →