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In marine navigation, a pelorus is a reference tool for maintaining bearing of a vessel at sea. It is a "simplified compass" without a directive element, suitably mounted and provided with vanes to permit observation of relative bearings.[1]
The instrument was named for one Pelorus, said to have been the pilot for Hannibal, circa 203 BC.
Ancient use
editHarold Gatty described the use of a pelorus by Polynesians before the use of a compass. In equatorial waters the nightly course of stars overhead is nearly uniform during the year. This regularity simplified navigation for the Polynesians using a pelorus, or dummy compass:
[Arabs] divided the horizon into 32 points. These points were derived from fifteen stars which rose at approximately equally spaced points of the eastern horizon. The setting points of these stars on the western horizon gave them another fifteen points and north and south brought the total to thirty two.
These accomplished navigators [Polynesians] had names for one hundred and fifty stars. They knew the point on the horizon where each of these rose, and the time at which it did so. They knew the islands which each passed over.
Many of the peoples in the Pacific used the thirty two point dummy compass…I consider this…proof of the Indo-Malayan origin of the Polynesians.
— Harold Gatty, Nature Is Your Guide[2]
Reading from North to South, in their rising and setting positions, these stars are:[3]
Stars Point Star N Polaris NbE "the Guards" (Ursa Minor) NNE Alpha Ursa Major NEbN Alpha Cassiopeiae NE Capella NEbE Vega ENE Arcturus EbN the Pleiades E Altair EbS Orion's belt ESE Sirius SEbE Beta Scorpionis SE Antares SEbS Alpha Centauri SSE Canopus SbE Achernar S Southern Cross
The true position of these stars is only approximate to their theoretical equidistant rhumbs on the sidereal compass. Over time, the elaboration of the pelorus points led to the modern compass rose.
Modern use
editIn appearance and use, a pelorus resembles a compass or compass repeater, with sighting vanes or a sighting telescope attached, but it has no directive properties. That is, it remains at any relative direction to which it is set. It is generally used by setting 000° at the lubber's line. Relative bearings are then observed. They can be converted to bearings true, magnetic, grid, etc., by adding the appropriate heading. The direct use of relative bearings is sometimes of value. A pelorus is useful, for instance, in determining the moment at which an aid to navigation is broad on the beam. It is also useful in measuring pairs of relative bearings which can be used to determine distance off and distance abeam of a navigational aid.
If the true heading is set at the lubber's line, true bearings are observed directly. Similarly, compass bearings can be observed if the compass heading is set at the lubber's line, etc. However, the vessel must be on the heading to which the pelorus is set if accurate results are to be obtained, or else a correction must be applied to the observed results. Perhaps the easiest way of avoiding error is to have the steersman indicate when the vessel is on course. This is usually done by calling out "mark, mark, mark" as long as the vessel is within a specified fraction of a degree of the desired heading. The observer, who is watching a distant object across the pelorus, selects an instant when the vessel is steady and is on course. An alternative method is to have the observer call out "mark" when the relative bearing is steady, and the steersman note the heading. If the compass is swinging at the moment of observation, the observation should be rejected. The number of degrees between the desired and actual headings is added if the vessel is to the right of the course, and subtracted if to the left. Thus, if the course is 060° and the heading is 062° at the moment of observation, a correction of 2° is added to the bearing.
See also
editReferences
edit- ^ Pelorus entry in American Practical Navigator, from Wikisource
- ^ Harold Gatty (1958). Nature Is Your Guide, pp. 45
- ^ List comes from Tolmacheva (1980:p. 183), based "with some reservations" on Tibbets (1971: p. 296, n. 133). The sidereal rose given in Lagan (2005: p.66) has some differences, e.g. placing Orion's belt in East and Altair in EbN.
Further reading
edit- J. Lagan (2005). The Barefoot Navigator: Navigating with the Skills of the Ancients. Dobbs Ferry, NY: Sheridan House.
- Tibbets, G.R. (1971). Arab Navigation in the Indian Ocean before the coming of the Portuguese. London: Royal Asiatic Society.
- Tolmacheva, M. (1980). "On the Arab System of Nautical Orientation", Arabica, vol. 27 (2), pp. 180–92.