Circle to Grad (Gon)
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grad
Conversion History
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|---|---|---|
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Quick Reference Table (Circle to Grad (Gon))
| Circle (cir) | Grad (Gon) (grad) |
|---|---|
| 0.25 | 100 |
| 0.5 | 200 |
| 1 | 400 |
| 2 | 800 |
| 5 | 2,000 |
| 10 | 4,000 |
About Circle (cir)
As a unit of angle, a circle represents one complete rotation — equivalent to 360° or 2π radians. It is used when counting full rotations is more natural than accumulating degrees. In some engineering and mathematical contexts, particularly when describing periodic phenomena or counting complete cycles, the circle (or full angle) provides an unambiguous reference. It is equivalent to the revolution and the turn, all representing 360°.
A figure skater completing three full spins executes 3 circles of rotation. A gear ratio of 2:1 means the driven gear completes 1 circle for every 2 circles of the driving gear.
About Grad (Gon) (grad)
The grad (also called gon or grade, symbol: grad or g) divides a full circle into 400 equal parts, so a right angle is exactly 100 grad. It was introduced during the French metric reform of the late 18th century to create a decimal-friendly angular system compatible with metric measurements. The grad persists in civil engineering, land surveying, and mining in continental Europe, particularly in France, Germany, and Scandinavia. Most scientific calculators include a GRAD mode alongside DEG and RAD.
A slope of 1 grad in road engineering is a 1 gon incline from horizontal — used in surveying instruments and tachymeters across Europe.
Etymology: From the French "grade", introduced around 1793 as part of the revolutionary metric system. The 400-division was chosen so that a right angle equals exactly 100 grad, aligning with decimal arithmetic.
Circle – Frequently Asked Questions
What is the difference between a circle, a revolution, and a turn as angle units?
Nothing — they are three names for exactly the same thing: one full rotation of 360° or 2π radians. The word you use depends on context. "Revolution" is standard in mechanics (RPM), "turn" is common in everyday speech and some programming libraries, and "circle" appears in mathematical notation. Converting between them is trivially 1:1:1. The distinction is linguistic, not mathematical.
Why do some formulas use "cycles" while others use "circles" for the same angle?
In signal processing and electrical engineering, one complete oscillation is called a "cycle" — hence frequency is measured in cycles per second (hertz). In geometry and pure math, the same quantity is a "circle" of angle. In rotating machinery, it's a "revolution." They all equal 360°. The different words reflect different communities, not different physics. When you see ω = 2πf, the 2π converts from cycles (which engineers count) to radians (which the math requires).
How many circles of rotation does a car wheel make per kilometer?
A standard passenger car tire has a diameter of about 63 cm (roughly 25 inches), giving a circumference of about 1.98 meters. So the wheel completes approximately 505 full circles per kilometer. At highway speeds of 100 km/h, that's roughly 840 revolutions per minute — which is why wheel balance matters. Even a tiny imbalance of a few grams, repeated 840 times a second at speed, creates noticeable vibration.
What is the "winding number" and how does it relate to circles of rotation?
The winding number counts how many complete circles a curve makes around a point. A rubber band wrapped twice around a post has a winding number of 2. This concept is surprisingly powerful in mathematics — it proves the Fundamental Theorem of Algebra, explains why you can't comb a hairy ball flat, and underlies how complex analysis works. GPS receivers use a version of it to count carrier-wave cycles for centimeter-precision positioning.
Can an angle be larger than one full circle?
Yes. A gymnast performing a double backflip rotates through 2 circles (720°). A bolt tightened "three full turns" has been rotated through 3 circles (1,080°). In mathematics, angles beyond 360° are perfectly normal — they represent multiple rotations and are essential for describing things like coiled springs, spiral staircases, and the cumulative rotation of spinning objects over time. The trigonometric functions simply repeat (sin(370°) = sin(10°)).
Grad (Gon) – Frequently Asked Questions
Why did the French Revolution create the gradian when degrees already worked fine?
The revolutionaries wanted to decimalize everything — length (meter), mass (kilogram), time (decimal hours), and angle. The gradian divided a right angle into exactly 100 parts, making it compatible with the new metric system and decimal arithmetic. A slope of 1% grade corresponds neatly to gradian-based calculations. Decimal time flopped within a year, the Republican Calendar lasted 12 years, but the gradian quietly survived in surveying because it genuinely simplifies land measurement calculations.
What is the difference between a gradian, a gon, and a grade?
They're all the same unit — 1/400 of a circle. "Gradian" is the international English term, "gon" is preferred in German-speaking countries and ISO standards, and "grade" is the original French name. The symbol varies too: grad, gon, or superscript g. This naming mess is partly why the unit never gained traction outside continental Europe — nobody could agree on what to call it.
Where are gradians still actually used today?
Primarily in civil engineering and land surveying in France, Germany, Switzerland, and Scandinavia. Total stations (electronic surveying instruments) from Leica and other European manufacturers default to gon. Mining engineers in Germany use gon for underground surveys. French national mapping uses grades for geodetic calculations. If you buy a Leica total station in Europe, you may need to switch it from gon to degrees before using it elsewhere.
Why does every scientific calculator have a GRAD mode that almost nobody uses?
Calculator manufacturers include DEG, RAD, and GRAD modes because international standards (particularly IEC 60747) require it, and European civil engineering exams expect students to work in gradians. The mode exists for a real user base — it's just a user base concentrated in specific countries and professions. The most common calculator accident in the world is probably getting wrong trig answers because the calculator was accidentally left in GRAD mode after someone else used it.
How do you convert between gradians and degrees?
Multiply gradians by 0.9 to get degrees, or multiply degrees by 10/9 to get gradians. A right angle is 100 grad = 90°. The conversion factor is 9/10 because 400/360 = 10/9. This means 50 grad = 45°, 200 grad = 180°, and 300 grad = 270°. The relationship is simple enough to do in your head, which is one of the few nice things about having two competing angular systems.