Convert Beaufort Scale to Mach (Bft → Ma)
The Beaufort scale rates wind force from 0 (calm) to 12 (hurricane), used by sailors and meteorologists.
Beaufort Scale to Mach Conversion Table
10 common values| Beaufort Scale | Mach |
|---|---|
| 1 Bft | 0.002939 Ma |
| 5 Bft | 0.014693 Ma |
| 10 Bft | 0.029387 Ma |
| 25 Bft | 0.073467 Ma |
| 50 Bft | 0.146934 Ma |
| 100 Bft | 0.293867 Ma |
| 150 Bft | 0.4408 Ma |
| 200 Bft | 0.587734 Ma |
| 300 Bft | 0.881601 Ma |
| 500 Bft | 1.469335 Ma |
How to Convert Beaufort Scale to Mach Manually
Step by StepConverting Beaufort to Mach is straightforward: multiply by the conversion factor. Follow these three steps to do it by hand or in your head.
- 1Take your value in BeaufortStart with the number of Beaufort (Bft) you want to convert.
- 2Multiply by 0.002939The conversion factor from Bft to Ma is 0.002939. Multiply your value by this number.
- 3Read the result in MachThe result is your value in Mach (Ma).
Formula
Multiply the value in Beaufort by 0.002939. For the reverse direction, multiply by 340.29.
m/s = 0.836 × Bft^1.5Bft = (m/s ÷ 0.836)^(1/1.5)Tips
Use these in everyday conversions- Beaufort is empirical — conversion to m/s uses v = 0.836 × B^1.5.
- Force 4 (moderate breeze) = 5.5–7.9 m/s.
- Marine forecasts still use Beaufort alongside knots.
Common Mistakes
Avoid these- Treating Beaufort as a linear scale — it is a power relationship.
- Converting Beaufort to km/h by multiplying — always use the empirical formula.
- Using Beaufort for land winds — it was designed for sea conditions.
About Beaufort Scale and Mach
What is the Beaufort Scale?
The Beaufort scale is an empirical wind-force scale ranging from 0 (calm) to 12 (hurricane), developed in 1805 by British Royal Navy Admiral Francis Beaufort. Originally designed for ships at sea, the scale was based on observed effects: 'How much sail can my ship safely carry?' Modern versions describe both observed effects on land and sea and corresponding wind-speed ranges. Force 0 is dead calm (under 1 km/h), Force 6 is 'strong breeze' (39–49 km/h, large branches in motion), Force 10 is a 'whole storm' (89–102 km/h), and Force 12 is hurricane (over 118 km/h). The conversion to numeric speeds follows v = 0.836 × Bft^1.5 m/s. Sailors, meteorologists, and shipping forecasts still use the Beaufort scale because its descriptive nature is intuitive: 'Force 8 gale' immediately conveys conditions to anyone familiar with the scale.
- Marine weather forecasts
- Sailing and offshore navigation
- Historical weather records
Force 5 (fresh breeze): 17–21 knots, white-caps form. Force 8 (gale): 34–40 knots. Force 12: 64+ knots.
What is the Mach?
Mach is a dimensionless speed ratio comparing an object's speed to the local speed of sound (about 343 m/s in air at sea level, varying with altitude and temperature). Named after Austrian physicist Ernst Mach (1838–1916), who pioneered supersonic photography, the unit became standard with high-speed aviation. Mach 1 = sound speed; Mach 2 = twice sound speed. The Concorde cruised at Mach 2.04, the SR-71 Blackbird reached Mach 3.3, and modern commercial jets cruise at Mach 0.78–0.85 (subsonic). 'Breaking the sound barrier' (first achieved by Chuck Yeager in 1947) means crossing Mach 1 in horizontal flight. Hypersonic missiles operate above Mach 5. Mach is essential in aerodynamics because shock waves, drag, and heating all depend on the relationship between vehicle speed and sound speed. At sea level: Mach 1 ≈ 1,235 km/h ≈ 767 mph ≈ 343 m/s.
- Military and supersonic-aircraft speeds
- Aerospace engineering
- Hypersonic missile specifications
Concorde: Mach 2.04. F-16 fighter: Mach 2. SR-71 Blackbird: Mach 3.3. Space re-entry: Mach 25+.