Estimate wind speed from windsock angle and deflection. Convert between wind units and view the Beaufort scale with visual windsock angle reference chart.
The Windsock Calculator estimates wind speed based on the angle of a standard aviation windsock. Windsocks are ubiquitous at airports, helipads, chemical plants, and industrial facilities as simple, reliable wind indicators that require no power or electronics. Learning to read a windsock is a valuable skill for pilots, skydivers, drone operators, and anyone working in wind-sensitive environments.
A standard aviation windsock (conforming to ICAO specifications) is designed to fully extend horizontally at 15 knots (approximately 17 mph or 28 km/h). The relationship between wind speed and windsock angle follows a roughly linear progression — at 3 knots the sock barely lifts, at 7-8 knots it reaches about 45°, and at 15+ knots it streams fully horizontal. The red and white striped sections also provide calibration — each stripe represents approximately 3 knots of wind speed.
This calculator works in both directions: enter wind speed to see the expected windsock angle, or estimate the angle you observe to determine wind speed. It includes conversion between all common wind units (knots, mph, km/h, m/s, Beaufort), a visual Beaufort scale reference, and guidance for interpreting windsock behavior in gusty conditions where the sock oscillates between angles.
Use this calculator when you need a quick field estimate from a windsock without pulling out an anemometer. It is useful for flight planning, drone operations, skydiving, and any site where a windsock gives direction instantly but speed still needs interpretation. That makes it easier to turn a visual cue into a rough operational wind-speed range on the spot.
Wind Speed (knots) ≈ Angle × (15/90) for 0°-90° deflection from vertical. Full extension at 15 knots (standard ICAO windsock). Each stripe (standard 5-stripe sock) indicates approximately 3 knots. Conversions: 1 knot = 1.15078 mph = 1.852 km/h = 0.51444 m/s.
Result: ~10 knots (11.5 mph, 18.5 km/h)
A windsock at 60° from vertical indicates approximately 10 knots of wind. At this angle, roughly 4 of the 5 stripes are inflated. This corresponds to Beaufort Force 3 (gentle breeze), causing leaves and small twigs to move constantly.
The International Civil Aviation Organization (ICAO) specifies that standard airport windsocks must fully extend to horizontal in a 15-knot wind. The standard dimensions are approximately 36 inches (91 cm) at the mouth opening, tapering to about 18 inches at the tail, with an overall length of 8 feet (2.4 meters). The alternating stripes serve dual purposes — visibility against different sky backgrounds and as calibration markers for quick speed estimation.
Modern windsocks are typically made from rip-stop nylon or polyester with UV-resistant coating. They're mounted on a swivel bearing atop a mast, usually 15-20 feet high to minimize ground-level turbulence effects. Proper installation ensures free rotation with minimal friction so the sock responds accurately to both speed and direction changes.
Pilots use windsocks as primary visual references for wind conditions during takeoff and landing. The wind information helps determine the active runway, expected crosswind component, and approach speed adjustments. During pattern work, a quick glance at the windsock confirms wind conditions without requiring radio calls.
For student pilots and recreational aviators, developing the ability to quickly read windsock angle translates directly to safer flight operations. A windsock showing 10+ knots of crosswind on a narrow runway might prompt a go-around or diversion to a runway more aligned with the wind.
Developed in 1805 by Royal Navy officer Sir Francis Beaufort, this scale provides a standardized way to estimate wind speed from observed environmental effects. At Beaufort Force 1 (1-3 knots), smoke drifts indicate wind direction. At Force 4 (11-16 knots), small branches move and dust is raised. Force 7 (28-33 knots) makes it difficult to walk against the wind and whole trees sway. The scale remains invaluable for estimating wind speed without instruments and for communicating weather conditions in a universally understood framework.
A properly mounted ICAO standard windsock provides wind speed accuracy within ±2-3 knots and direction within ±15°. Worn or non-standard windsocks may be less reliable. Environmental factors like turbulence from nearby buildings can also affect accuracy.
A standard aviation windsock has 5 alternating red and white (or orange and white) stripes. Each visible inflated stripe indicates approximately 3 knots of wind speed. All 5 stripes fully inflated and horizontal means 15+ knots.
Above 15 knots, the windsock is fully extended horizontally and cannot indicate higher speeds through angle alone. The sock will appear stiffer and may flutter less, but you need an anemometer for precise readings above this range.
A windsock points downwind — the open end (mouth) faces into the wind, and the tapered tail streams away from the wind. If the sock points to the east, the wind is blowing from the west (a westerly wind).
Windsocks visually display gusts as oscillations between a lower and higher angle. An observer can estimate the gust range by noting the minimum and maximum angles during a 10-second observation period. This provides a rough gust factor estimate.
The Beaufort scale is a 0-12 empirical system that relates wind speed to observed conditions on land or sea. It ranges from Force 0 (calm, smoke rises vertically) to Force 12 (hurricane, devastating damage). It's widely used in marine forecasting and general weather communication.