Celestial Navigation Cooney's Theory
Sidereal Day
The time the Earth takes to make 1 complete rotation: 23 Hours, 56 Minutes, 4 Seconds
Lower Transit
When a body crosses the lower branch of the observer's celestial meridian. Time of lower transit is Local Apparent Midnight.
Upper Transit
When a body crosses the upper branch of the observer's celestial meridian. Time of upper transit is Local Apparent Noon.
Quadrature
When a body observed from earth is at a right angle with the sun.
Civil Twilight
When the Sun is 0-6 degrees below the horizon, best time to observe stars and planets.
Solstice
When the sun is at the maximum latitude in a hemisphere. Winter Solstice (23.5 degrees S) is maximum south, Summer Solstice (23.5 degrees N) is maximum north.
Equinox
When the sun is directly over the equator. Happens twice a year. Vernal equinox, March 21. Autumnal Equinox, September 21.
Perihelion
the point in the earths orbit when it is closest to the sun
Greenwich Celestial Meridian
A celestial meridian using Greenwich as its zenith.
Geoidal Horizon
Assumes the observer's eye level is at surface of Earth.
EP
Elevated Pole
The true path of the Sun
Elliptic
Right Ascension (RA)
The compliment of SHA. (SHA + RA = 360)
Solar Day
24 Hours
Lunar Day
24 Hours 50 Minutes
Parallel of Latitude
A circle drawn around the globe parallel to the equator and at right angles to the meridians.
Parallel of Altitude
A circle on the celestial sphere, parallel with the horizon, containing all points of equal altitude.
Parallel of Declination
A circle passing through the celestial object and parallel to the celestial equator.
Celestial Meridian
A circle passing through the celestial poles and the zenith of a given place on the earth's surface.
Mean Solar Day
A day consisting of exactly 24 hours
Hour Circle
A great circle on the celestial sphere passing through the celestial poles. A line from the pole, through the celestial object, intersecting the celestial equator at right angles.
Precession
A slow motion of Earth's axis that traces out a cone. Causes smaller changes to apparent positions of Celestial Bodies over time.
Difference between celestial meridians and hour circles
Celestial Meridians are in reference to the Earth. Hour Circles are in reference to the Celestial Sphere, specifically the poles.
Three Sides of the navigational triangle
Co-Latitude (EP-Z), Polar Distance (EP to GP), Co-Altitude (Z-GP)
Diurnal Cycles
Concentric circles formed from the daily path of the celestial body
Height Observed (HO)
Corrected sextant measurement of a body
Geometric Horizon
Depends solely on the height of eye. Refraction is unaccounted for.
The apparent path of the Sun
Ecliptic
Three vertices of the navigational triangle.
Elevated Pole, Zenith of observer, GP of the star.
Another name for the Celestial Equator System
Equinoctial System
GP
Geographical Position
Vertical Circle
Great circles on the celestial sphere that pass through the Zenith and Nadir, perpendicular to the celestial horizon.
Ho Mo To/CGA
If HO > HC. Advance is towards the azimuth. If HC > HO, advance is away from the azimuth.
Three angles of the navigational triangle
LHA (Meridian Angle) (At the EP), Azimuth angle (At Zenith), Parallactic Angle (At GP)
Adjustable Sextant errors
Lack of perpendicularity of frame and index mirror, Lack of perpendicularity of frame and horizon glass (side error) Non-parallelism of index mirror and horizon glass Non-parallelism of the telescope with the frame (collimation error)
Magnitude
Measure of the brightness of a celestial body.
Height Apparent (HA)
Measured angle of a celestial body over the horizon after sextant corrections are applied
Height Sextant (HS)
Measured angle of a celestial body over the horizon obtained by a sextant reading.
Navigational Planets
Planets within the Solar System with enough magnitude to be used in navigation. Mars, Venus, Jupiter & Saturn
Non-adjustable sextant errors
Prismatic Error, Graduation Error, Centering Error
Nautical Twilight
Sun between 6 and 12 degrees below horizon
Height Calculated (HC)
Table value of a sextant measurement
Declination
The angle measured from the elevated pole along the hour circle to the body.
Latitude
The angle measured from the equator, along the meridian to the object.
Altitude
The angle measured from the horizon along the vertical circle to the body
Zenith Distance
The angular distance between the zenith and the celestial body measured along the vertical circle through the body. Complimented by Altitude.
Polar Distance
The angular distance measured from the elevated pole along the arc of an hour circle to the object.
Retrograde Motion
The apparent motion of the planets when they appear to move backwards due to a different sized orbit.
Diurnal Path
The daily path of a celestial body traced on the earth.
Azimuth
The horizontal angular distance from north measured eastward along the horizon to a point directly below a celestial body.
Line of Apsides
The line joining apehelion and perihelion
Celestial Horizon
The plane perpendicular to Zenith-Nadir axis that passes through the center of the Earth. Most measurements within the Horizon system come from the Celestial Horizon.
Sensible Horizon
The plane perpendicular to the Zenith-Nadir axis that passes through the observers eye.
Apehelion
The point in the earth's orbit when it is furthest from the sun.
Zenith
The point on the celestial meridian directly above an object or observer.
Nadir
The point on the celestial meridian directly below the object or observer.
First Point of Aries
The point on the celestial sphere where the path of the sun crosses the celestial equator from south to north in March, marking the zero point of right ascension. Used as the reference point for stars (SHA). Also called the "vernal equinox."
Celestial Equator (CE)
The projection of the earth's equator onto the celestial sphere. Also called the Equinoctial
Precession
The result of gravitational forces exerted by the sun and moon on E's equatorial bulge
Meridian Angle (t)
Angular distance, measured 0˚ to 180˚ East or West of the observer's celestial meridian. (Find t using LHA. If LHA > 180, 360-LHA = t. If LHA < 180, LHA=t)
Local Hour Angle (LHA)
Angular distance measured 0˚ -360˚ west of the local celestial meridian
Greenwich Hour Angle (GHA)
Angular distance measured from 0˚ to 360˚ west of the Greenwich meridian
Sidereal Hour Angle (SHA)
Angular distance, measured 0˚ -360˚ west of the vernal equinox. We use this to determine the position of stars and planets
Circumpolar
A star or celestial body that never sets below the observers horizon.
The Prime Vertical Circle
A vertical circle that passes through the east and west celestial poles of a horizon, perpendicular to the observer's celestial horizon.
The Principle Vertical Circle
A vertical circle that passes through the north and south celestial poles of the horizon.
Nutation
An irregularity in precession caused by the gravitational effects of other celestial bodies.
