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A sine quadrant, known in Arabic as
A sine quadrant (), sometimes known as a "sinecal quadrant", was a type of quadrant used by medieval Arabic astronomers. The instrument could be used to measure celestial angles, tell time, find directions, perform
The instrument is a quarter of a circle made of wood or metal (usually
During the day, the Sun's
File:Sine Quadrant-Iznik Museum-Turkey.jpg, Ottoman sine quadrant
File:Sine quadrant - Flickr - brewbooks.jpg, Sine quadrant
File:Khalili Collection Islamic Art sci 0040.1 CROP.jpg, Wooden sine-cosine quadrant (1840)
File:Khalili Collection Islamic Art sci 0040.2.jpg, Reverse side of wooden quadrant, featuring an
Deconstructing the Sine Quadrant-Part 1: Introduction
– The Astrolabe Project {{Authority control Astronomical instruments Astronomy in the medieval Islamic world Technology in the medieval Islamic world
trigonometric
Trigonometry () is a branch of mathematics concerned with relationships between angles and side lengths of triangles. In particular, the trigonometric functions relate the angles of a right triangle with ratios of its side lengths. The field ...
computations, and determine the apparent positions of any celestial object for any time. The name is derived from the Arabic meaning 'a quarter' and meaning 'marked with sine'.
The sine quadrant was described by Muhammad ibn Mūsā al-Khwārizmī
Muhammad (8 June 632 CE) was an Arab religious and political leader and the founder of Islam. According to Islam, he was a prophet who was divinely inspired to preach and confirm the monotheistic teachings of Adam, Noah, Abraham, Mos ...
in 9th-century Baghdad, and was used throughout the medieval Islamic period to determine the proper times for Islamic prayer
''Salah'' (, also spelled ''salat'') is the practice of formal worship in Islam, consisting of a series of ritual prayers performed at prescribed times daily. These prayers, which consist of units known as ''rak'ah'', include a specific se ...
.David A. King, "Islamic Astronomy", in Christopher Walker (1999), ed., Astronomy before the telescope, p. 167-168. British Museum Press. . These instruments, with poor angular resolution, were not principally intended to function with stars at night as an astronomical measuring device. It is impractical to sight a star through the front aperture unless it is on a fixed, stabilized mount relative to the half degree width of a very intense Sun.
Description
The instrument is a quarter of a circle made of wood or metal (usually brass
Brass is an alloy of copper and zinc, in proportions which can be varied to achieve different colours and mechanical, electrical, acoustic and chemical properties, but copper typically has the larger proportion, generally copper and zinc. I ...
) divided on its arc side into 90 equal parts or degrees. The 90 divisions are gathered in 18 groups of five degrees each and are generally numbered both ways from the ends of the arc. That is, one set of numbers begins at the left end of the arc and counts up to 90 at the right end, while the other starts on the right and the 90 is at the left. This double numbering enables the instrument to measure either celestial altitude or zenith distance
The zenith (, ) is the imaginary point on the celestial sphere directly "above" a particular location. "Above" means in the vertical direction (plumb line) opposite to the gravity direction at that location (nadir). The zenith is the "highest" p ...
or both simultaneously.
At the apex—where the two graduated straight sides of the grid pattern meet in a right angle—is a thin cord strung through a pin hole and weighted with a small bead. The cord is called a and is used as a plumb line
A plumb bob, plumb bob level, or plummet, is a weight, usually with a pointed tip on the bottom, suspended from a string and used as a vertical direction as a reference line, or plumb-line. It is a precursor to the spirit level and used to est ...
when measuring celestial altitudes. It is also used to indicate angles when doing calculations with the instrument; the sliding bead facilitates trigonometric calculations. This plumb line serves two functions: first, it indicates the angular orientation of the instrument, and second, it ensures the instrument is parallel to the vertical plane (perpendicular with the ground) when optically aligned with the target.
Traditionally, the line from the beginning of the arc to the apex is called the and the line from the end of the arc to the apex is called the . Because the arc is numbered in both directions, these labels are not attached to one straight side or the other, but are instead relative to the measurement or calculation being performed.
Like the arc, both the and are divided into 60 equal units gathered in groups of five, numbered in both directions to and from the apex. The sixty lines parallel to the are called or ''sixtys'', and the sixty lines parallel to the are called . The reason for sixty divisions along the and is that the instrument uses the sexagesimal
Sexagesimal, also known as base 60, is a numeral system with 60 (number), sixty as its radix, base. It originated with the ancient Sumerians in the 3rd millennium BC, was passed down to the ancient Babylonians, and is still used—in a modified fo ...
number system. It is graduated to the number base 60 and not to the base 10 ( decimal system) presently used. Time, angular measurement, and geographical coordinate measurements are about the only holdovers from the Sumerian/Babylonian number system that are still used.
On one of the straight edges of the non-maritime quadrant (solid sheet form) are two alignment plates called , each with a small central aperture
In optics, the aperture of an optical system (including a system consisting of a single lens) is the hole or opening that primarily limits light propagated through the system. More specifically, the entrance pupil as the front side image o ...
(pinhole). These two apertures form an optical axis through which the user sights an inclined object, such as a star at night.
The maritime (navigation) version of these devices is skeletal in design rather than a solid sheet form, so as to limit buffeting or movement of the instrument from wind while in the operator's hand.
Measuring the Sun's altitude
During the day, the Sun's altitude
Altitude is a distance measurement, usually in the vertical or "up" direction, between a reference datum (geodesy), datum and a point or object. The exact definition and reference datum varies according to the context (e.g., aviation, geometr ...
can be determined by aligning the apertures such that sunlight passes through both and projects a bright illuminated dot onto a surface (such as the user's finger or the screen plate of a mariner's backstaff
The backstaff is a celestial navigation, navigational instrument that was used to measure the Horizontal coordinate system#Altitude, altitude of a astronomical object, celestial body, in particular the Sun or Moon. When observing the Sun, users ...
). The apertures are not viewing holes for sighting the Sun with the naked eye.
The second aperture also attenuates (darkens) the incoming sunlight by masking any annulus-shaped sunlight reflecting off the metal first aperture. This is similar to an iris in a camera lens reducing the light intensity.
Typically, the instrument is orientated such that the user faces looking slightly down upon the scale, with the Sun at the user's left and the right hand placed in such a way that a finger functions as a projection screen. When the apertures are optically aligned with the Sun, the user reads the angular measurement of the point where the graduated arc is bisected by the hanging plumb line.
A misconception by non-astronomers and non-navigators is that using the instrument requires two people: one to take the sight and one to read the plumb line's angular position. Actually, when measuring the Sun's altitude, the instrument is held flush (face on) and below eye level by a single user, meaning they can read the cord's angular position on the face of the instrument. However, it does help to have another person to write down the scale readings as they are taken; the device cannot be held sufficiently stable (retaining the optical alignment) with just one hand.
Gallery
astrolabe
An astrolabe (; ; ) is an astronomy, astronomical list of astronomical instruments, instrument dating to ancient times. It serves as a star chart and Model#Physical model, physical model of the visible celestial sphere, half-dome of the sky. It ...
quadrant
References
External links
Deconstructing the Sine Quadrant-Part 1: Introduction
– The Astrolabe Project {{Authority control Astronomical instruments Astronomy in the medieval Islamic world Technology in the medieval Islamic world