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The Haversine formula calculates the great-circle distance between two points on a sphere (like Earth) from their latitude and longitude. It is used in navigation, mapping, and GPS applications.

Formel

a = sin²(Δφ/2) + cos(φ₁)cos(φ₂)sin²(Δλ/2); d = 2R·arcsin(√a)

φ₁, φ₂: latitude of points 1 and 2 (radians)
Δφ: difference in latitude (radians)
λ₁, λ₂: longitude of points 1 and 2 (radians)
Δλ: difference in longitude (radians)
R: Earth radius (km (≈6371)) — or miles (≈3959)
d: great-circle distance (km or miles)

Trin-for-trin guide

1a = sin²(Δlat/2) + cos(lat₁)cos(lat₂)sin²(Δlon/2)
2c = 2×atan2(√a, √(1−a))
3d = R × c, where R = 6371 km (Earth radius)
4Gives shortest path along Earth's surface

Løste eksempler

Input

London (51.5°N,0.1°W) to New York (40.7°N,74°W)

Resultat

≈ 5,570 km / 3,461 miles

Input

Paris to Berlin

Resultat

≈ 878 km

Ofte stillede spørgsmål

What is a great circle?

The shortest path between two points on a sphere. On Earth, that's the shortest route between two locations.

Why not use Euclidean distance for GPS?

Earth is curved (sphere). Euclidean distance (straight line) ignores the curvature and gives incorrect results.

Is haversine the only way to calculate geographic distance?

No, but it's accurate, numerically stable, and avoids singularity issues of other formulas.

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