So berechnen Sie Wind Chill

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Wind chill is the perceived decrease in air temperature felt by the body on exposed skin due to wind. Wind accelerates heat loss from the body, making it feel colder than the actual air temperature.

Formel

Wind chill ≈ 35.74 + 0.6215T − 35.75×(V^0.16) + 0.4275T×(V^0.16) where T is temp(°F), V is wind(mph)

WC: Wind Chill (°F)
T: Air Temperature (°F)
V: Wind Speed (mph)

Schritt-für-Schritt-Anleitung

1WC = 35.74 + 0.6215T − 35.75V^0.16 + 0.4275T×V^0.16 (°F)
2WC = 13.12 + 0.6215T − 11.37V^0.16 + 0.3965T×V^0.16 (°C)
3V = wind speed in mph (or km/h for Celsius formula)
4Formula valid for T ≤ 50°F (10°C) and V > 3 mph

Gelöste Beispiele

Eingabe

20°F air temperature, 15 mph wind

Ergebnis

Feels like 6°F — frostbite risk in 30 minutes

Eingabe

−10°C, 30 km/h wind

Ergebnis

Feels like −22°C — frostbite risk in 10 minutes

Häufig gestellte Fragen

What does wind chill actually measure?

Wind chill is the apparent temperature a body feels due to wind cooling the skin. It's not an actual temperature, but how cold it feels.

At what wind speed does wind chill plateau?

Above approximately 50 mph, wind chill increases very slowly. At 35 mph, you've captured most of the effect.

Why do I need to know wind chill?

Wind chill helps assess frostbite risk. Below −20°F wind chill, exposed skin can freeze in under 30 minutes.

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