Search references for PLANETARY COORDINATE-SYSTEM. Phrases containing PLANETARY COORDINATE-SYSTEM
See searches and references containing PLANETARY COORDINATE-SYSTEM!PLANETARY COORDINATE-SYSTEM
Coordinate system for planets
A planetary coordinate system (also referred to as planetographic, planetodetic, or planetocentric) is a generalization of the geographic, geodetic, and
Planetary_coordinate_system
Celestial coordinate system used to specify the positions of celestial objects
The equatorial coordinate system is a celestial coordinate system widely used to specify the positions of celestial objects. It may be implemented in spherical
Equatorial_coordinate_system
Coordinate system used on the Moon
the evening terminator is equal to the colongitude plus 180°. Planetary coordinate system Selenoid Chu, Alan; et al. (2012). The Cambridge Photographic
Selenographic coordinate system
Selenographic_coordinate_system
Coordinates comprising a distance and two angles
In mathematics, a spherical coordinate system specifies a given point in three-dimensional space by using a distance and two angles as its three coordinates
Spherical_coordinate_system
System to specify locations on Earth
A geographic coordinate system (GCS) is a spherical or geodetic coordinate system for measuring and communicating positions directly on Earth as latitude
Geographic_coordinate_system
Science of planets and planetary systems
(including Earth), moons, asteroids, comets) and planetary systems (in particular those of the Solar System) and the processes of their formation. It studies
Planetary_science
System for specifying positions of celestial objects
In astronomy, coordinate systems are used for specifying positions of celestial objects (satellites, planets, stars, galaxies, etc.) relative to a given
Astronomical coordinate systems
Astronomical_coordinate_systems
3-D coordinate system centered on the Earth
Earth-fixed coordinate system (acronym ECEF), also known as the geocentric coordinate system, is a cartesian spatial reference system that represents
Earth-centered, Earth-fixed coordinate system
Earth-centered,_Earth-fixed_coordinate_system
Methods to identify locations on the Sun
Fränz, M.; Harper, D. (February 2002). "Heliospheric coordinate systems" (PDF). Planetary and Space Science. 50 (2): 217–233. Bibcode:2002P&SS...50
Solar_coordinate_systems
2D coordinate system whose coordinate lines are confocal ellipses and hyperbolae
In geometry, the elliptic coordinate system is a two-dimensional orthogonal coordinate system in which the coordinate lines are confocal ellipses and
Elliptic_coordinate_system
Geographic coordinate system
geodetic coordinates Geodetic datum Geodesics on an ellipsoid Planetary coordinate system National Geodetic Survey (U.S.).; National Geodetic Survey (U
Geodetic_coordinates
Celestial coordinate system used to describe Solar System objects
In astronomy, the ecliptic coordinate system is a celestial coordinate system commonly used for representing the apparent positions, orbits, and pole orientations
Ecliptic_coordinate_system
Reference frame for measuring location
coordinates Ordnance datum Milestone Planetary coordinate system Frame of reference Timeline of Earth estimates World Geodetic System The plural is not "data" in
Geodetic_datum
Geometric figure which approximates the Earth's shape
Geoid Great ellipse Meridian arc Normal gravity Planetary coordinate system History of geodesy Planetary ellipsoid Alexander, J. C. (1985). "The Numerics
Earth_ellipsoid
Defining the orbit of an object in space
Similar definitions exist for satellites around other planets (see planetary coordinate systems). For heliocentric orbits, the ecliptic as the reference plane
Longitude of the ascending node
Longitude_of_the_ascending_node
East-West geographic coordinate
Navigation Orders of magnitude Planetary coordinate system#Longitude Right ascension on celestial sphere World Geodetic System "Definition of LONGITUDE".
Longitude
Methods to prevent destructive asteroid hits
Group, NASA Office of Space Science, Solar System Exploration Office France, Martin (7 August 2000). "Planetary Defense: Eliminating the Giggle Factor" (PDF)
Asteroid_impact_avoidance
Cartography of solid objects outside of the Earth
map. Areography (geography of Mars) Cartography of the Moon Planetary coordinate system "ICA Multilingual Glossary". Archived from the original on March
Planetary_cartography
Celestial coordinate system
of the other moons disturbs it regularly. Galactic coordinate system Planetary coordinate system Archinal, B. A.; A’Hearn, M. F.; Bowell, E.; Conrad
Poles_of_astronomical_bodies
Linear scaling of Barycentric Coordinate Time
interplanetary spacecraft in the Solar System. TDB is now (since 2006) defined as a linear scaling of Barycentric Coordinate Time (TCB). A feature that distinguishes
Barycentric_Dynamical_Time
Small crater used for prime meridian on 4 Vesta
the Claudia coordinate system has since been superseded by the Claudia Double-Prime system (also called the Planetary Data coordinate system), where Claudia
Claudia_(crater)
Time scale
spacetime coordinate system relative to an implied observer. In many (but not all) coordinate systems, an event is specified by one time coordinate and three
Coordinate_time
Conceptual tool in astronomy
building a system that way are as much historic as technical. Astronomy portal Horizontal coordinate system Equatorial coordinate system Hour angle Pole
Celestial_sphere
Laws describing planetary orbits
In astronomy, Kepler's laws of planetary motion give good approximations for the orbits of planets around the Sun. They were published by Johannes Kepler
Kepler's laws of planetary motion
Kepler's_laws_of_planetary_motion
Table of positions of astronomical objects at given times
calculated from an ephemeris is often given in the spherical polar coordinate system of right ascension and declination, together with the distance from
Ephemeris
Layer of gases surrounding an astronomical body held by gravity
Bauer, Siegfried; Lammer, Helmut (2013). Planetary Aeronomy: Atmosphere Environments in Planetary Systems. Physics of Earth and Space Environments. Springer
Atmosphere
Natural satellite orbiting Earth
Dickey, Jean O. (1996). "Lunar moments, tides, orientation, and coordinate frames". Planetary and Space Science. 44 (10): 1077–1080. Bibcode:1996P&SS...44
Moon
Branch of astronomy
use of various different coordinate systems, such as the Heliocentric (Sun-centered) coordinate system. In a binary system of objects interacting through
Celestial_mechanics
defined only when using either an equatorial or an ecliptic celestial coordinate system, in which any two astronomical objects (e.g. asteroids, moons, planets
List of conjunctions (astronomy)
List_of_conjunctions_(astronomy)
Binary star in the constellation Cygnus
binary, the discovery that multi-planet systems can form in such a system has impacted previous theories of planetary formation. A group of astronomers led
Kepler-47
ellipsoid Jacobi ellipsoid Latitude Ellipsoidal coordinates Planetary coordinate system Snyder, J. P. (1986). "Conformal Mapping of the Triaxial Ellipsoid"
Map projection of the triaxial ellipsoid
Map_projection_of_the_triaxial_ellipsoid
Science of measuring the shape, orientation, and gravity of Earth
3D space. It is called planetary geodesy when studying other astronomical bodies, such as planets or circumplanetary systems. Geodetic job titles include
Geodesy
Branch of astronomy about the celestial sphere
astronomy are celestial coordinate systems and time. The coordinates of objects on the sky are listed using the equatorial coordinate system, which is based on
Spherical_astronomy
Health of civilization and natural systems
environmental change on human health. Planetary health refers to "the health of human civilization and the state of the natural systems on which it depends." In 2015
Planetary_health
Trajectory of Earth around the Sun
of the planetary motions, and this quest led to many mathematical developments and several successive "proofs" of stability for the Solar System. By most
Earth's_orbit
Superseded description of the Universe with Earth at the center
the Solar System with the largest gravitational field as the center of the coordinate system in order to predict the motions of planetary bodies, though
Geocentrism
Periodic, three-dimensional orbit
pull of the two planetary bodies and the Coriolis and centrifugal force on a spacecraft. Halo orbits exist in any three-body system, e.g., a Sun–Earth–orbiting
Halo_orbit
Planetary nebula in the Lynx constellation
sky. ("PK 164+31.1" basically represents the planetary nebula that when using the galactic coordinate system has a galactic longitude of 164 degrees, a
Jones-Emberson_1
American planetary scientist
Carolyn C. Porco (born March 6, 1953) is an American planetary scientist who explores the outer Solar System, beginning with her imaging work on the Voyager
Carolyn_Porco
Problem in physics and celestial mechanics
integration. Local coordinate systems are used to deal with widely differing scales in some problems, for example an Earth–Moon coordinate system in the context
N-body_problem
Concept in celestial mechanics
distances involved are much bigger.[citation needed] Astronomical system of units Planetary mass Pitjeva, E. V. (September 2015). "Determination of the Value
Standard gravitational parameter
Standard_gravitational_parameter
Second largest main-belt asteroid
Jian-Yang; Mafi, Joseph N. "Body-Fixed Coordinate Systems for Asteroid (4) Vesta" (PDF). Planetary Data System. Archived (PDF) from the original on 6
4_Vesta
Pioneer of America's space program
basic framework for all planetary surface mapping and coordinates systems of his era. His fundamental contributions to planetary mapping led to his being
Merton_E._Davies
Apparent path of the Sun on the celestial sphere
is an important reference plane and is the basis of the ecliptic coordinate system. Ancient scientists were able to calculate Earth's axial tilt by comparing
Ecliptic
Dedicated to the search for life on exoplanets
research teams and acquire new knowledge about exoplanets and extrasolar planetary systems. In 1995, astronomers using ground-based observatories discovered
Nexus for Exoplanet System Science
Nexus_for_Exoplanet_System_Science
Area of the sky divided into twelve signs
into Pisces. The zodiac forms a celestial coordinate system, or more specifically an ecliptic coordinate system, which takes the ecliptic as the origin
Zodiac
Star in the constellation Leo
first edition of the catalogue. In August 2022, this planetary system was included among 20 systems to be named by the third NameExoWorlds project. The
Gliese_436
Type of spacecraft maneuver
2010). Using the Two-Burn Escape Maneuver for Fast Transfers in the Solar System and Beyond (PDF) (Report). NASA. Archived (PDF) from the original on 11
Oberth_effect
NASA body supervising its scientific missions
Field in California, guiding research in Earth Science, Heliophysics, Planetary Science, and Astrophysics. Its responsibility is to define and direct
Science_Mission_Directorate
2002 video game
galaxies, solar systems, and planetary slots. Typically, universes contain up to nine galaxies, each with several hundred systems, and each system includes multiple
OGame
Abrupt boundary between a magnetosphere and the surrounding plasma
abrupt boundary between a magnetosphere and the surrounding plasma. For planetary science, the magnetopause is the boundary between the planet's magnetic
Magnetopause
Archive of NASA data
of the Moon and the Solar System. Planetary Data System NASA/IPAC Extragalactic Database HEASARC Astrophysics Data System NSSTC This article incorporates
NASA Space Science Data Coordinated Archive
NASA_Space_Science_Data_Coordinated_Archive
Orbit around the barycenter of the Sun
of the Solar System, which is usually located within or very near the surface of the Sun. Comets which traverse the inner Solar System shift between
Heliocentric_orbit
Vector quantity in celestial mechanics
m_{2}} ) The coordinate system is inertial. Each object can be treated as a spherically symmetrical point mass. No other forces act on the system other than
Specific_angular_momentum
Mathematic model
The semi-analytic planetary theory VSOP (French: Variations Séculaires des Orbites Planétaires) is a mathematical model describing long-term changes (secular
VSOP_model
Mathematical equation describing the motion of a rocket
could achieve speeds necessary for space travel. Consider the following system: In the following derivation, "the rocket" is taken to mean "the rocket
Tsiolkovsky_rocket_equation
Spacecraft end-of-life orbit
Orbital mechanics Astronomical coordinate systems Characteristic energy Escape velocity Ephemeris Equatorial coordinate system Ground track Hill sphere Interplanetary
Graveyard_orbit
Concept in orbital mechanics
Orbital mechanics Astronomical coordinate systems Characteristic energy Escape velocity Ephemeris Equatorial coordinate system Ground track Hill sphere Interplanetary
Mean_longitude
Measure of amount of effort to change trajectory
_{t_{0}}^{t_{1}}\left|{\dot {v}}\right|\,dt} where v ˙ {\displaystyle {\dot {v}}} is the coordinate acceleration. When thrust is applied in a constant direction (v/|v|
Delta-v
Quasi-periodic orbital trajectory
(hardback). Lissauer, Jack J.; Chambers, John E. (2008). "Solar and planetary destabilization of the Earth–Moon triangular Lagrangian points". Icarus
Lissajous_orbit
Measure in astrodynamics
Orbital mechanics Astronomical coordinate systems Characteristic energy Escape velocity Ephemeris Equatorial coordinate system Ground track Hill sphere Interplanetary
Characteristic_energy
Division of NASA
third-party institutions, and the Solar System Exploration program of NASA-led missions that focus on prioritized planetary science objectives. The Discovery
Planetary Missions Program Office
Planetary_Missions_Program_Office
Curved path of an object around a point
summarised in his three laws of planetary motion. First, he found that the orbits of the planets in the Solar System are elliptical, not circular (or
Orbit
Ecliptic longitude of the Sun
breakpoints being at solar longitudes that are multiples of 30°. Celestial coordinate system Ecliptic Ecliptic pole, where the ecliptic latitude is ±90° Equinox
Solar_longitude
Kind of planetary orbit
Retrieved 23 February 2018. Lodders, Katharina; Fegley, Bruce (1998). The planetary scientist's companion. Oxford University Press US. pp. 190, 198. ISBN 0-19-511694-1
Supersynchronous_orbit
Mathematical parameter used to describe planetary magnetic field lines
(after Carl E. McIlwain) is a parameter describing a particular set of planetary magnetic field lines. Colloquially, L-value often describes the set of
L-shell
Type of spacecraft orbit
the moon". Space News. "Chang'e-5: China's Moon sample return mission". Planetary. Artemis I Launch to the Moon (Official NASA Broadcast) - Nov. 16, 2022
Distant_retrograde_orbit
Parameter of Keplerian orbits
Eccentric anomaly Kepler's equation Projective geometry Kepler's laws of planetary motion Ellipse Hyperbola Fundamentals of Astrodynamics and Applications
True_anomaly
Orbital mechanics Astronomical coordinate systems Characteristic energy Escape velocity Ephemeris Equatorial coordinate system Ground track Hill sphere Interplanetary
Longitude_of_periapsis
Type of orbit
velocity with respect to the Earth, this is not enough to escape the Solar System, so near the Earth the orbit resembles a parabola, but further away it bends
Parabolic_trajectory
Center of mass of multiple bodies orbiting each other
International Celestial Reference System (ICRS) is a barycentric coordinate system centered on the Solar System's barycenter. The barycenter is one of
Barycenter_(astronomy)
Either of two extreme points in a celestial object's orbit
/ˈæpsɪˌdiːz/ AP-sih-deez) is the farthest or nearest point in the orbit of a planetary body about its primary body. The line of apsides (also called apse line
Apsis
Topics referred to by the same term
three-dimensional orthogonal coordinate system. Toroidal and poloidal coordinates, directions for a three-dimensional system which follows a circular ring
Toroidal
Propulsive maneuver used to arrive at the Moon
missions without significant perturbations from sources outside the Earth-Moon system, a fast Hohmann transfer is typically more practical. A spacecraft performs
Trans-lunar_injection
Movement during spaceflight
orbital maneuver (otherwise known as a burn) is the use of propulsion systems to change the orbit of a spacecraft. For spacecraft far from Earth, an
Orbital_maneuver
Plane passing through the barycenter of a planetary system
The invariable plane of a planetary system, also called Laplace's invariable plane, is the plane passing through its barycenter (center of mass) perpendicular
Invariable_plane
Mathematical theory of the geometry of space and time
fundamental principles: coordinate independence, which asserts that the laws of physics are the same regardless of the coordinate system used, and the equivalence
Curved_spacetime
Astrodynamic equation
as it is a freefall (situation of weightlessness). Consider a two-body system consisting of a central body of mass M and a much smaller, orbiting body
Orbit_equation
Type of geocentric orbit
maintain. These allow some effects of a frozen SSO to be gained around a planetary body that does not allow SSOs by its own gravitational parameters. Other
Sun-synchronous_orbit
Periodic, three-dimensional orbit
families. This orbit type could also be used with other bodies in the Solar System and beyond. Near-rectilinear halo orbits are one theoretical solution to
Near-rectilinear_halo_orbit
Crater on Venus named by Pedro Guanikeyu Torres
diameter, and is located at +East, 0 - 360 using the planetocentric coordinate system. Its name is derived from the original Taino language of the Greater
Nanichi
Spaceflight maneuver
inclination change required over the duration of the spacecraft life. Planetary flybys are the most efficient way to achieve large inclination changes
Orbital_inclination_change
Complex type of orbit
Orbital mechanics Astronomical coordinate systems Characteristic energy Escape velocity Ephemeris Equatorial coordinate system Ground track Hill sphere Interplanetary
Rosetta_orbit
Formulation of classical mechanics
the covariant components of the metric tensor of the curvilinear coordinate system. All the indices a, b, c, each take the values 1, 2, 3. Curvilinear
Lagrangian_mechanics
Time period during which a rocket must launch to reach its target
rare opportunities arise, such as when Voyager 2 took advantage of a planetary alignment occurring once in 175 years to visit Jupiter, Saturn, Uranus
Launch_window
Movement around a celestial body that remains below its Karman line
Orbital mechanics Astronomical coordinate systems Characteristic energy Escape velocity Ephemeris Equatorial coordinate system Ground track Hill sphere Interplanetary
Transatmospheric_orbit
Type of orbit around an astronomical body
Orbital mechanics Astronomical coordinate systems Characteristic energy Escape velocity Ephemeris Equatorial coordinate system Ground track Hill sphere Interplanetary
Near-equatorial_orbit
Largest moon of Jupiter
for planetary satellites (IAU WGCCRE)". Archived from the original on October 24, 2011. Retrieved August 28, 2017. "Planetary Names: Target Coordinate Systems"
Ganymede_(moon)
Kepler orbit with an eccentricity of less than one
ellipses with the Sun at one focus, and described this in his first law of planetary motion. Later, Isaac Newton explained this as a corollary of his law of
Elliptic_orbit
14th–16th-century Asian cultural movement
between coordinate systems on the celestial sphere, such as the transformation from the ecliptic coordinate system to the equatorial coordinate system. The
Timurid_Renaissance
Range of low orbital altitudes
defined as a measurement of all power gains and losses in a communication system. With satellites, the process of transmitting from the Earth to the satellite
Very_low_Earth_orbit
State of balance between external forces on a fluid and internal pressure gradient
criterion between dwarf planets and small solar system bodies, and features in astrophysics and planetary geology. Said qualification of equilibrium indicates
Hydrostatic_equilibrium
Idea that small causes can have large effects
Universe Applications of Gravitational N-Body Dynamics to Planetary Stellar and Galactic Systems. USA: CRC Press. ISBN 0-7503-0822-2. Retrieved January 6
Butterfly_effect
Equilibrium points near two orbiting bodies
natural objects to be found orbiting in those Lagrange points of planetary systems. Objects that inhabit those points are generically referred to as
Lagrange_point
Term in geometry; longest and shortest semidiameters of an ellipse
149.6 million km. Lissauer, Jack J.; de Pater, Imke (2019). Fundamental Planetary Sciences: physics, chemistry, and habitability. New York: Cambridge University
Semi-major and semi-minor axes
Semi-major_and_semi-minor_axes
Main-belt asteroid
color does not vary significantly across the surface. In the ecliptic coordinate system, the pole of rotation is estimated to be oriented to the coordinates
39_Laetitia
Field of classical mechanics concerned with the motion of spacecraft
star system (see n-body problem). Celestial mechanics uses more general rules applicable to a wider variety of situations. Kepler's laws of planetary motion
Orbital_mechanics
Sixth planet from the Sun
Earth's. Together, Jupiter and Saturn hold 92% of the total planetary mass in the Solar System. Despite consisting mostly of hydrogen and helium, most of
Saturn
planetary system Any set of gravitationally bound non-stellar objects in or out of orbit around a star or star system. In general, planetary systems include
Glossary_of_astronomy
Maintenance of a particular orbit
two larger solar system bodies. For example, there are five of these points in the Sun-Earth system, five in the Earth-Moon system, and so on. Spacecraft
Orbital_station-keeping
PLANETARY COORDINATE-SYSTEM
PLANETARY COORDINATE-SYSTEM
Girl/Female
Gujarati, Hindu, Indian, Kannada, Malayalam, Marathi, Sindhi, Tamil, Telugu
Method; Organisation; System
Boy/Male
Arabic, Muslim
Religion of Path; Way; Style; System; Way of Religion
Surname or Lastname
English
English : status name for the head of a tithing, Old English tēoðingmann (from tēoðing ‘tithing’, a group of households, originally ten households, + mann ‘man’). According to the medieval system of frankpledge, every member of a tithing was responsible for every other, so that for example if one of them committed a crime the others had to help pay for it.English : from the Middle English, Old English personal name Tideman, composed of Old English tīd ‘time’, ‘season’ + mann ‘man’.Altered spelling of German Tittmann, a variant of Dittmann.
Surname or Lastname
English (Yorkshire)
English (Yorkshire) : status name in the feudal system for a serf who had been freed.Jewish (American) : Americanized form of Friedmann (see Fried).
Girl/Female
Tamil
Pranali | பà¯à®°à®£à®¾à®²à¯€
System, Organization
Pranali | பà¯à®°à®£à®¾à®²à¯€
Boy/Male
Tamil
To do something systematically, Optimum utilization of resources
Surname or Lastname
German
German : topographic name for someone who lived by an elder tree, Middle High German holder, or from a house named for its sign of an elder tree. In same areas, for example Alsace, the elder tree was believed to be the protector of a house.Jewish (Ashkenazic) : ornamental name from German Holder ‘elder tree’.English (chiefly western counties) : occupational name for a tender of animals, from an agent derivative of Middle English hold(en) ‘to guard or keep’ (Old English h(e)aldan). It is possible that this word was also used in the wider sense of a holder of land within the feudal system. Compare Helder.
Surname or Lastname
English
English : status name from Middle English knyghte ‘knight’, Old English cniht ‘boy’, ‘youth’, ‘serving lad’. This word was used as a personal name before the Norman Conquest, and the surname may in part reflect a survival of this. It is also possible that in a few cases it represents a survival of the Old English sense into Middle English, as an occupational name for a domestic servant. In most cases, however, it clearly comes from the more exalted sense that the word achieved in the Middle Ages. In the feudal system introduced by the Normans the word was applied at first to a tenant bound to serve his lord as a mounted soldier. Hence it came to denote a man of some substance, since maintaining horses and armor was an expensive business. As feudal obligations became increasingly converted to monetary payments, the term lost its precise significance and came to denote an honorable estate conferred by the king on men of noble birth who had served him well. Knights in this last sense normally belonged to ancient noble families with distinguished family names of their own, so that the surname is more likely to have been applied to a servant in a knightly house or to someone who had played the part of a knight in a pageant or won the title in some contest of skill.Irish : part translation of Gaelic Mac an Ridire ‘son of the rider or knight’. See also McKnight.
Surname or Lastname
English
English : from Old Norse drengr ‘young man’, but with more than one possible interpretation. It may reflect the personal name (originally a byname) of this form, which had some currency in the most Scandinavian-influenced areas of medieval England. Alternatively it may reflect the Middle English borrowing of the vocabulary word in the sense ‘servant’, later a technical term of the feudal system of Northumbria for a free tenant who held land by military and agricultural service, sometimes paying rent as well or in commutation.
Boy/Male
Indian, Telugu
Coordinator; Conveyor; Become a Leader
Girl/Female
Tamil
Pranaali | பà¯à®°à®¨à®¾à®²à¯€
System, Organization
Pranaali | பà¯à®°à®¨à®¾à®²à¯€
Surname or Lastname
Irish (co. Cork)
Irish (co. Cork) : reduced Anglicized form of Gaelic Mac Oitir ‘son of Oitir’, a personal name borrowed from Old Norse Óttarr, composed of the elements ótti ‘fear’, ‘dread’ + herr ‘army’.English : status name from Middle English cotter, a technical term in the feudal system for a serf or bond tenant who held a cottage by service rather than rent, from Old English cot ‘cottage’, ‘hut’ (see Coates) + -er agent suffix.Probably an Americanized spelling of German Kotter.
Girl/Female
Hindu
System, Organization
Surname or Lastname
English and Irish
English and Irish : apparently a topographic name from Middle English furlong ‘length of a field’ (from Old English furh ‘furrow’ + lang ‘long’), the technical term for the block of strips owned by several different persons which formed the unit of cultivation in the medieval open-field system of farming, or a habitational name from a minor place named with this word, such as Furlong in Devon or Shropshire. The surname is now chiefly common in Ireland, where a family of this name settled at the end of the 13th century.Possibly an Americanized form of French Ferland.
Girl/Female
Hindu
System, Organization
Boy/Male
Arabic
Broken Egg Shells (Celestial Trinary Star System in Constellation Eridanus)
Boy/Male
Hindu
To do something systematically, Optimum utilization of resources
Boy/Male
Hindu
Co-coordinator
Boy/Male
Tamil
Co-coordinator
Surname or Lastname
English
English : status name from Middle English frankelin ‘franklin’, a technical term of the feudal system, from Anglo-Norman French franc ‘free’ (see Frank 2) + the Germanic suffix -ling. The status of the franklin varied somewhat according to time and place in medieval England; in general, he was a free man and a holder of fairly extensive areas of land, a gentleman ranked above the main body of minor freeholders but below a knight or a member of the nobility.The surname is also borne by Jews, in which case it represents an Americanized form of one or more like-sounding Jewish surnames.In modern times, this has been used to Americanize François, the French form of Francis.The American statesman and scientist Benjamin Franklin (1706–90) was the son of Josiah Franklin, a chandler (dealer in soap and candles), who had emigrated in about 1682 from Ecton, Northamptonshire, to Boston, MA, where his son was born.
PLANETARY COORDINATE-SYSTEM
PLANETARY COORDINATE-SYSTEM
Girl/Female
American, Anglo, British, English
Noble Strength; A Blend of Audrey and Anna; Nobility
Girl/Female
Muslim/Islamic
Night
Girl/Female
Tamil
Heart, Sweet heart
Male
Native American
Native American Sioux name OHITEKAH means "brave."
Boy/Male
Hindu, Indian
Lord Indra
Girl/Female
Hindu
Intellectual or spiritual endeavour, Another name for Saraswati
Girl/Female
Sikh
Ray of light, Brightness
Girl/Female
Gujarati, Indian, Traditional
Hindu Goddess of Knowledge; Education
Male
English
English surname transferred to forename use, derived from the French personal name Pascal, PACE means "Passover; Easter."
Male
Scottish
Modern form of Scottish Gaelic Muicheachtach, MUIRIARTACH means "skilled seaman."
PLANETARY COORDINATE-SYSTEM
PLANETARY COORDINATE-SYSTEM
PLANETARY COORDINATE-SYSTEM
PLANETARY COORDINATE-SYSTEM
PLANETARY COORDINATE-SYSTEM
a.
Under the dominion or influence of a planet.
a.
Disorderly; irregular; inordinate.
a.
Pertaining to two coordinate species or divisions.
n.
Lines, or other elements of reference, by means of which the position of any point, as of a curve, is defined with respect to certain fixed lines, or planes, called coordinate axes and coordinate planes. See Abscissa.
a.
Of or pertaining to the sole of the foot; as, the plantar arteries.
a.
Having the nature of a planet; erratic; revolving; wandering.
a.
Having reference to the placenta; as, the placentary system of classification.
a.
Caused by planets.
adv.
In a coordinate manner.
imp. & p. p.
of Coordinate
a.
Not coordinate.
p. pr. & vb. n.
of Coordinate
a.
Not limited to rules prescribed, or to usual bounds; irregular; excessive; immoderate; as, an inordinate love of the world.
v. t.
To make coordinate; to put in the same order or rank; as, to coordinate ideas in classification.
v. t.
To give a common action, movement, or condition to; to regulate and combine so as to produce harmonious action; to adjust; to harmonize; as, to coordinate muscular movements.
a.
Inordinate; disorderly.
n.
A thing of the same rank with another thing; one two or more persons or things of equal rank, authority, or importance.
a.
Consisting of planets; as, a planetary system.
a.
Of or pertaining to the planets; as, planetary inhabitants; planetary motions; planetary year.
a.
Equal in rank or order; not subordinate.