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navigation [2017/02/10 05:29] azmariadeinavigation [2017/02/12 00:48] (current) azmariadei
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-Original article is at [[http://www.orionpressfanzines.com/articles/navigation_coordinates_in_star_t.htm|Orion Press]]+Original Article at [[http://www.orionpressfanzines.com/articles/navigation_coordinates_in_star_t.htm|Orion Press]] Reposted with Permission
  
-written and diagramed by Tim Farley +  * Written and Diagramed by Tim Farley 
-first published in Stardate 4, August 1980 +  * First Published in Stardate 4, August 1980 
-© 1980 by Tim Farley for Orion Press+  © 1980 by Tim Farley for Orion Press
  
 All fans are familiar with references to course and bearings in Star Trek, such as "Mister Sulu, come to heading 550 mark 3" and other similar lines. However, the system behind these references has never been correctly or completely explained. Without going into an immense amount of detail, I shall explain the system and offer some proof to back it up. All fans are familiar with references to course and bearings in Star Trek, such as "Mister Sulu, come to heading 550 mark 3" and other similar lines. However, the system behind these references has never been correctly or completely explained. Without going into an immense amount of detail, I shall explain the system and offer some proof to back it up.
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 The following table contains, to my knowledge, every course and bearing used in the live action Star Trek episodes: The following table contains, to my knowledge, every course and bearing used in the live action Star Trek episodes:
  
-Enterprise Courses: Bearings: +{{ :navigation1.jpg |}}
-14 mark 68 (WGD) +
-17 mark 4 (Dv) +
-28 mark 42  (UC) +
-32º mark 10  (DMa) +
-37 mark 010  (Psy) +
-70 mark 21 (DMa) +
-111 mark 14  (BT) +
-112 mark 5  (UC) +
-113 mark 5  (UC) +
-113 mark 7  (UC) +
-117 mark 2  (LZ) 126 mark 20  (LZ) +
-127 mark 8  (TI) +
-143 mark 2  (ET) +
-143 mark 3  (LZ) +
-148 mark 3  (ET) +
-181 mark 7 (SGn) +
-185 mark 3 (EI) +
-188 mark 14  (DY) +
-210 mark 40  (Mt) +
-217 mark 5 (LZ) +
-224 mark 12  (Mt) 257 mark 3 (DY) +
-307 mark 8 (IM) +
-310 mark 35  (Mt) +
-310 mark 41  (GT) +
-318 mark 7 (EI) +
-373 mark 8 (TI) +
-403 mark 7 (LB) +
-513 mark 7 (RM) +
-883 mark 41 (PSy) +
-902 mark 5 (Dv) 0 mark 0   (TMP) +
-4 mark 7  (Cp) +
-"azimuth 24"  (Cp) +
-27 mark 8 (JB) +
-"azimuth 87"  (Ar) +
-"azimuth 963"  (Ar) +
-94 mark 7, elev 6º  (Ob) +
-111º elev. 4º  (DD) +
-bearing 121  (MW) +
-123º mark 18  (Cg) +
-127 mark 9  (Ob) +
-bearing 201  (DD) +
-210 mark 12  (Cg) +
-300 mark 7 (AON) +
-"distant bearing, +
-mark 73.5"  (ET) +
-Miscellaneous: Note: This article was written and published well before Star Trek: The Wrath of Khan was filmed. +
-"three point..." Galileo’s course, cut off (GS) +
-164 mark 3        Lexington’s course (UC) +
-201 mark 15      Galileo’s course (Mt) +
-241 mark 17      Yonada’s course (FW)+
  
  
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 Imagine a plane parallel to the plane of the galaxy, but passing through your position. This is the "equator." "Up" will be the direction of the galactic north pole (N.G.P.) determined by astronomers. Draw a vector from your position in the direction that the nearest point on the edge of the galaxy is from Earth. This is the "zero vector." Longitude of any direction is measured counterclockwise from this vector. Imagine a plane parallel to the plane of the galaxy, but passing through your position. This is the "equator." "Up" will be the direction of the galactic north pole (N.G.P.) determined by astronomers. Draw a vector from your position in the direction that the nearest point on the edge of the galaxy is from Earth. This is the "zero vector." Longitude of any direction is measured counterclockwise from this vector.
  
-coordinate.gif (81558 bytes)+{{ :coordinate.gif |}}
  
 Once you have found the longitude, the latitude is measured "down" from a line inclined 25º to the "equator" plane. Thus the latitude of a stellar destination, most likely located in the disk of the galaxy, will be between 0º and 50º. Latitudes run from 0º to 275º (straight down) and from 775º (straight up) to 1000º (equivalent to 0º ). Just as Earth latitudes are never greater than 90º or less than 90º, these latitude values are never between 275º and 775º. Once you have found the longitude, the latitude is measured "down" from a line inclined 25º to the "equator" plane. Thus the latitude of a stellar destination, most likely located in the disk of the galaxy, will be between 0º and 50º. Latitudes run from 0º to 275º (straight down) and from 775º (straight up) to 1000º (equivalent to 0º ). Just as Earth latitudes are never greater than 90º or less than 90º, these latitude values are never between 275º and 775º.
navigation.1486704585.txt.gz · Last modified: 2017/02/10 05:29 by azmariadei

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