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Speed Converter

Convert between mph, km/h, m/s, and knots

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About This Tool

Reading a Japanese car review where everything is in kilometers per hour while you mentally translate to mph is a low-grade cognitive tax most people just accept.

This tool handles the units you actually run into: km/h, mph, m/s, ft/s, knots, and Mach (with sea-level standard atmosphere assumed). Type a value into any unit and the others fill in immediately.

A knot is one nautical mile per hour, which is one minute of arc along a meridian — about 1.852 km/h. Mach varies with temperature and altitude, but at sea level standard conditions it's roughly 1235 km/h. Both quirks are handled correctly here, which is why nautical and aviation references that use these units agree with the converter rather than fighting it.

The conversions are mostly arithmetic, but the historical context tells you why each unit exists. The knot was defined by sailors throwing a knotted rope off the back of a ship and counting how many knots passed through their hands in 28 seconds — the time for a small sandglass to empty. Each knot was 47 feet 3 inches apart, calibrated so the count gave nautical miles per hour directly. The nautical mile itself was defined as one minute of latitude, so a knot equals one minute of latitude per hour. This made dead reckoning navigation tractable: track your speed in knots and your bearing, and you could plot position on a chart without further computation.

Mach is more interesting because it isn't constant. The speed of sound depends on the temperature and composition of the air. At sea level on a standard day (15°C), it's 340.3 m/s. At cruising altitude (about 11km, -56°C), it's about 295 m/s. So Mach 1 at altitude corresponds to a lower true airspeed than Mach 1 at sea level. The converter uses 343 m/s (sea level, 20°C) as the default, which is good enough for general use but wrong for serious aviation work where the actual atmospheric conditions matter.

Where converters typically go wrong: assuming the input unit. If somebody says 'I was doing 60 on the highway,' that's mph in the US, km/h in Europe, and either depending on which English-speaking country in Asia. The input has to specify; the tool can't guess. A speed of 100 in km/h is a normal highway clip; 100 in mph is enough to lose your license; 100 in knots is hurricane-force wind. Same number, three completely different physical realities.

For astronomy and physics, the speeds in this converter are too slow to matter. Light, gravitational waves, and orbital velocities are routinely in fractions of c (the speed of light) or in km/s. The converter doesn't include c-fractions because they're a different mental model — relativistic speeds need their own treatment, and bolting them onto a converter that also handles 'mph for highway driving' would muddle the use cases.

The about text and FAQ on this page were drafted with AI assistance and reviewed by a member of the Coherence Daddy team before publishing. See our Content Policy for editorial standards.

Frequently Asked Questions

Why isn't Mach a fixed conversion?
Mach is the ratio of an object's speed to the local speed of sound, which depends on air temperature and density. The tool uses 343 m/s (sea level, 20°C) by default. Aircraft at altitude experience a different speed of sound.
Is a knot the same as a nautical mile?
No — a knot is a speed (nautical miles per hour), a nautical mile is a distance. Saying 'knots per hour' is technically wrong. Sailors and pilots use knots because one knot equals one minute of latitude per hour, simplifying navigation math.
How precise is the conversion?
All factors are derived from exact definitions where possible. 1 mph = 1.609344 km/h exactly. 1 knot = 1.852 km/h exactly. Results are shown to enough precision for any practical use without being noisy.
Can it handle negative speeds?
Speed is a magnitude, so negative values get treated as their absolute value. If you mean velocity (which has direction), the converter only gives you the magnitude — direction has to be tracked separately.
What about furlongs per fortnight?
A furlong per fortnight is roughly 0.0001663 m/s. The tool doesn't include it by default because the use cases are mostly jokes, but you can derive it from m/s easily enough.
Is mph or km/h more accurate?
Neither — they're both human-scale units defined by exact conversion to SI. The accuracy depends on how the value was measured, not which unit you express it in. A radar gun reading 60 mph and 96.6 km/h are equally precise statements of the same observation.
What about feet per minute?
Aviation uses ft/min for vertical speed (rate of climb/descent). 500 ft/min is a normal climb rate; 2000 ft/min is aggressive. Different unit family from horizontal speed because the operationally relevant numbers are different. The converter handles ft/s, which you can divide by 60 if you really need ft/min.