Editing Sextant (section)

==Taking a sight==
A ''sight'' (or ''measure'') of the angle between the [[Sun]], a [[star]], or a [[planet]], and the [[horizon]] is done with the 'star [[telescope]]' fitted to the sextant using a visible horizon. On a [[Watercraft|vessel]] at sea even on [[mist]]y days a sight may be done from a low height above the water to give a more definite, better horizon. Navigators hold the sextant by its handle in the right hand, avoiding touching the arc with the fingers.<ref name="Dixon68">{{cite book|last=Dixon|first=Conrad|title=Basic Astro Navigation|year=1968|publisher=Adlard Coles|isbn=0-229-11740-6|chapter=5. Using the sextant}}</ref>

For a Sun sight, a [[Filter (optics)|filter]] is used to overcome the [[Glare (vision)|glare]] such as "shades" covering both index mirror and the horizon mirror designed to prevent eye damage. Initially, with the index bar set to zero and the shades covering both mirrors, the sextant is aimed at the sun until it can be viewed on both mirrors through the telescope, then lowered vertically until the portion of the horizon directly below it is viewed on both mirrors. It is necessary to flip back the horizon mirror shade to be able to see the horizon more clearly on it. Releasing the index bar (either by releasing a clamping screw, or on modern instruments, using the quick-release button), and moving it towards higher values of the scale, eventually the image of the Sun will reappear on the index mirror and can be aligned to about the level of the horizon on the horizon mirror. Then the fine adjustment screw on the end of the index bar is turned until the bottom curve (the ''lower [[Limb darkening|limb]]'') of the Sun just touches the horizon. "[[Rotation around a fixed axis|Swinging]]" the sextant about the axis of the telescope ensures that the reading is being taken with the instrument held vertically. The angle of the sight is then read from the scale on the arc, making use of the micrometer or vernier scale provided. The exact time of the sight must also be noted simultaneously, and the height of the eye above sea-level recorded.<ref name="Dixon68"/>

An alternative method is to estimate the current [[Horizontal coordinate system|altitude]] (angle) of the Sun from navigation tables, then set the index bar to that angle on the arc, apply suitable shades only to the index mirror, and point the instrument directly at the horizon, sweeping it from side to side until a flash of the Sun's rays are seen in the telescope. Fine adjustments are then made as above. This method is less likely to be successful for sighting stars and planets.<ref name="Dixon68"/>

Star and planet sights are normally taken during [[nautical twilight]] at [[dawn]] or [[dusk]], while both the heavenly bodies and the sea horizon are visible. There is no need to use shades or to distinguish the lower limb as the body appears as a mere [[Point source|point]] in the telescope. The [[Moon]] can be sighted, but it appears to move very fast, appears to have [[Lunar distance (astronomy)|different sizes]] at different times, and sometimes only the lower or upper limb can be distinguished due to its [[Lunar phase|phase]].<ref name="Dixon68"/>

After a sight is taken, it is reduced to a position by looking at several mathematical procedures. The simplest [[sight reduction]] is to draw the equal-altitude circle of the sighted celestial object on a globe. The intersection of that circle with a dead-reckoning track, or another sighting, gives a more precise location.

Sextants can be used very accurately to measure other visible angles, for example between one heavenly body and another and between [[landmark]]s ashore. Used horizontally, a sextant can measure the apparent angle between two landmarks such as a [[lighthouse]] and a [[Church (building)|church]] spire, which can then be used to find the distance ''off'' or out to sea (provided the distance between the two landmarks is known). Used vertically, a measurement of the angle between the [[Lighthouse#Components|lantern]] of a lighthouse of known height and the [[sea level]] at its base can also be used for distance off.<ref name="Dixon68"/>