Sextant to Degree
sext
°
Conversion History
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|---|---|---|
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Quick Reference Table (Sextant to Degree)
| Sextant (sext) | Degree (°) |
|---|---|
| 0.5 | 30 |
| 1 | 60 |
| 2 | 120 |
| 3 | 180 |
| 4 | 240 |
| 6 | 360 |
About Sextant (sext)
As an angular unit, a sextant is one-sixth of a full circle — exactly 60°. The name comes from the Latin "sextans" (one-sixth), the same root as the navigational instrument whose arc spans one-sixth of a circle (60°), allowing it to measure angles up to 120° through its mirror system. The navigational sextant measures the angle between a celestial body and the horizon to determine latitude and longitude. As a pure angular unit, the sextant is rarely used outside of instrument design and historical contexts.
The arc of a marine sextant spans exactly one sextant unit (60°). Measuring the Sun's altitude at solar noon with a sextant allows a navigator to calculate latitude.
About Degree (°)
The degree (°) is the most widely used unit of angular measure, dividing a full rotation into 360 equal parts. This base of 360 originates in ancient Babylonian astronomy, which used a sexagesimal (base-60) number system and approximated the solar year at 360 days. One degree is subdivided into 60 arcminutes, each subdivided into 60 arcseconds. Degrees are the standard unit in navigation, aviation, geography, engineering drawing, and everyday geometry. The full circle being 360° means that right angles are conveniently 90° and straight angles 180°, making mental arithmetic with common fractions straightforward.
A right angle in a door frame or building corner is exactly 90°. A compass bearing of due north is 0°, east is 90°, south 180°, and west 270°.
Etymology: From the Latin word "gradus" (step or grade), via Old French "degré". The 360-division traces to Babylonian astronomers around 1000 BCE who used base-60 arithmetic and observed approximately 360 days in a year.
Sextant – Frequently Asked Questions
How does a marine sextant actually measure angles at sea?
A sextant uses two mirrors to superimpose the image of a celestial body onto the horizon. The navigator looks through the eyepiece and sees the horizon directly through a half-silvered mirror, while a second mirror on a movable arm reflects the Sun or star down into the same field of view. You swing the arm until the star appears to sit exactly on the horizon, then read the angle off the graduated arc. The double-reflection design means the arc only needs to span 60° (one sextant) to measure angles up to 120°.
Why is the instrument called a sextant if it measures more than 60 degrees?
The name refers to the arc of the instrument, not its measurement range. A sextant's arc is one-sixth of a circle (60°), but thanks to the double-reflection principle — where the angle of reflection doubles the arc angle — it can actually measure angles up to 120°. Similarly, an octant (one-eighth of a circle, 45° arc) measures up to 90°. The naming convention describes the physical shape of the tool, not its capability.
Can you still navigate by sextant in the GPS era and would anyone bother?
Yes, and navies worldwide still require it. The US Naval Academy reintroduced mandatory celestial navigation in 2015 after a decade-long hiatus, citing concerns about GPS vulnerability to jamming, spoofing, and satellite failure. A skilled celestial navigator with a sextant, an accurate clock, and a nautical almanac can determine position to within about 1–2 nautical miles — good enough to make port safely. Several solo round-the-world sailors carry sextants as backup specifically because they have no electronics to fail.
What was the sextant's role in solving the longitude problem?
The sextant itself couldn't solve longitude — that required an accurate clock (John Harrison's marine chronometer, completed in 1761). But the sextant was the other half of the solution. A navigator used it to measure the Sun's altitude at local noon to find the exact time of solar noon at their position. Comparing this to Greenwich time on the chronometer gave the time difference, and since Earth rotates 15° per hour, that time difference directly yielded longitude. Sextant + chronometer = position anywhere on Earth.
How is 60 degrees significant in geometry beyond the sextant?
Sixty degrees is the interior angle of an equilateral triangle — the simplest regular polygon after the square. Honeycomb cells are hexagons (six 120° angles, each the supplement of 60°) because hexagonal packing is the most efficient way to tile a plane. Carbon atoms in graphene and diamond form 60° and 109.5° angles respectively. The 60° angle appears everywhere in nature because it's the geometric consequence of close-packing equal-sized spheres or circles.
Degree – Frequently Asked Questions
Why did the Babylonians choose 360 degrees for a circle instead of a rounder number like 100?
The Babylonians used base-60 arithmetic and noticed the year was close to 360 days — convenient because 360 divides evenly by 2, 3, 4, 5, 6, 8, 9, 10, 12, 15, 18, 20, and more. That ridiculous number of factors makes slicing a circle into halves, thirds, quarters, fifths, sixths, and eighths all come out to whole numbers. A base-100 system would only divide cleanly by 2, 4, 5, 10, 20, 25, and 50 — far less flexible for geometry and land surveying.
Why do pilots and sailors still use degrees instead of radians?
Navigation requires quick mental arithmetic with headings, bearings, and wind corrections. "Turn right to heading 270" is instantly understood in a cockpit; "turn right to 4.712 radians" would get someone killed. Compass roses, runway numbers (which are headings divided by 10), and nautical charts all assume a 360° circle. The entire global aviation and maritime infrastructure — from VOR stations to AIS transponders — is calibrated in degrees.
What is the degree symbol (°) and how do you type it?
The degree symbol is a small raised circle placed immediately after the number with no space (45°, not 45 °). On Windows, hold Alt and type 0176 on the numpad. On Mac, press Option+Shift+8. On phones, long-press the zero key. In HTML, use ° or °. A common mistake is using a superscript letter "o" or the ring-above diacritic — these look similar but are different Unicode characters and can break search or data parsing.
How do degrees, minutes, and seconds (DMS) relate to decimal degrees in GPS?
One degree equals 60 arcminutes, and one arcminute equals 60 arcseconds — so 1° = 3,600″. To convert DMS to decimal, divide minutes by 60 and seconds by 3,600, then add them to the degree value. For example, 40°26′46″N becomes 40 + 26/60 + 46/3600 = 40.4461°. Google Maps uses decimal degrees internally but lets you enter either format. At the equator, one degree of longitude spans about 111 km.
Are there any alternatives to 360 degrees that countries have actually tried to adopt?
Yes — the French Revolutionary government introduced the gradian (grad), dividing a circle into 400 parts to match the metric system. A right angle became exactly 100 grad. They also tried decimal time (10-hour days) and a decimal calendar. The time and calendar experiments died within a few years, but gradians survived and are still used in French and German surveying. Every scientific calculator has a GRAD mode because of this 230-year-old French experiment.