Climate twins of Myrtle Beach, SC
These are the US cities whose 12-month climate pattern most closely matches Myrtle Beach's. Each "twin" must be at least 140 miles away to avoid trivial near-neighbor matches. Similarity is computed across all 24 monthly metrics (12 average temperatures + 12 average precipitations), normalized so temperature and precipitation contribute equally.
Side-by-side: Myrtle Beach vs its climate twin
Top match: Hamilton, NC
| Month | Myrtle Beach | Hamilton | ||||
|---|---|---|---|---|---|---|
| High | Low | Precip | High | Low | Precip | |
| January | 55.5°F | 33.6°F | 3.43 in | 51.8°F | 33.1°F | 3.69 in |
| February | 57.8°F | 35.5°F | 3.76 in | 54.9°F | 35.4°F | 3.22 in |
| March | 63.7°F | 41.8°F | 3.71 in | 62.0°F | 41.7°F | 4.13 in |
| April | 71.5°F | 50.6°F | 3.38 in | 71.4°F | 50.1°F | 3.72 in |
| May | 78.8°F | 59.7°F | 3.80 in | 78.2°F | 58.8°F | 3.69 in |
| June | 84.5°F | 67.9°F | 4.85 in | 85.3°F | 67.3°F | 5.13 in |
| July | 87.4°F | 71.6°F | 6.61 in | 88.5°F | 71.4°F | 5.75 in |
| August | 86.5°F | 70.0°F | 6.27 in | 86.9°F | 69.9°F | 5.70 in |
| September | 83.0°F | 65.0°F | 6.77 in | 81.8°F | 64.3°F | 6.92 in |
| October | 75.6°F | 53.8°F | 4.11 in | 73.0°F | 52.1°F | 4.29 in |
| November | 66.4°F | 42.2°F | 3.06 in | 63.1°F | 42.2°F | 3.39 in |
| December | 58.6°F | 36.3°F | 3.81 in | 55.3°F | 36.3°F | 3.57 in |
Cities that consider Myrtle Beach their climate twin
These US cities have Myrtle Beach in their top 3 most-similar list — meaning if you were to move from any of these places, Myrtle Beach would feel familiar.
- Jamesville, NC (ranks Myrtle Beach #1)
- Williamston, NC (ranks Myrtle Beach #1)
- Bear Grass, NC (ranks Myrtle Beach #1)
- Everetts, NC (ranks Myrtle Beach #1)
- Robersonville, NC (ranks Myrtle Beach #1)
- Hamilton, NC (ranks Myrtle Beach #1)
- Hassell, NC (ranks Myrtle Beach #1)
- Windsor, NC (ranks Myrtle Beach #1)
How this is computed
Each city is represented by a 24-dimensional vector: 12 monthly average temperatures and 12 monthly average precipitations. Each dimension is z-score normalized across the population of US cities, so that temperature variance and precipitation variance contribute proportionally. Distance between cities is Euclidean. We filter out cities within 2° latitude/longitude (~140 miles) so that "twins" mean climatically similar but geographically distinct — not just the neighboring town. Full methodology →