Adjectives For Coordinates
Discover the most popular adjectives for describing coordinates, complete with example sentences to guide your usage.
Updated on March 16, 2024
Navigating the intricate world of geometry, the term coordinates often comes accompanied by a set of descriptive adjectives, each unravelling a unique aspect of its representation. From the precise angles in cartesian and rectangular systems to the more complex dimensions in polar, spherical, and cylindrical frameworks, these adjectives do more than just define; they elucidate the spatial relationships within various geometrical spaces. Understanding these nuances not just broadens our mathematical lexicon but deepens our spatial awareness, paving the way for advanced geometrical insights. Explore the rich tapestry of adjectives that give color and context to coordinates, illuminating its multifaceted nature.
| cartesian | The point (3, 4) is plotted on the cartesian coordinates |
| rectangular | The rectangular coordinates of the point are (x, y) |
| polar | The position of the point on the plane can be represented by polar coordinates |
| spherical | The three-dimensional coordinates of a point in spherical coordinates are the distance from the origin, the angle from the positive z-axis, and the angle from the positive x-axis. |
| cylindrical | The cylindrical coordinates of the point are (r, θ, z). |
| spatial | The robot's movements were determined by its spatial coordinates |
| generalized | The positions of the particles in a mechanical system can be described by a set of generalized coordinates |
| normal | Quantum mechanical models employ normal coordinates instead of classical generalized coordinates. |
| local | The local coordinates were used to determine the position of the object. |
| curvilinear | The problem can also be formulated in curvilinear coordinates |
| homogeneous | Homogeneous coordinates are a system of coordinates used in projective geometry. |
| internal | The internal coordinates of a molecule are the bond lengths, bond angles, and dihedral angles. |
| relative | The position of the object is described by relative coordinates regarding to the origin of robot's Cartesian coordinate frame. |
| atomic | The atomic coordinates of the crystal structure were determined by X-ray diffraction. |
| geographic | Its location is defined by the geographic coordinates 49.9975° N, 9.9372° E. |
| dimensional | The spaceship jumped to dimensional coordinates 4, 7, and -2. |
| geographical | I found the geographical coordinates of the hidden treasure. |
| orthogonal | The orthogonal coordinates were calculated using the dot product. |
| logarithmic | The graph is plotted using logarithmic coordinates |
| absolute | The cursor position is (10, 20) in absolute coordinates |
| global | The location of the object can be identified by its global coordinates |
| independent | |
| horizontal | |
| angular | The angular coordinates of the star are right ascension 12h 34m 56.7s and declination -11° 12′ 34.5″. |
| corresponding | The data points had corresponding coordinates in the two-dimensional space. |
| exact | The exact coordinates of the treasure are marked on the map. |
| nuclear | |
| joint | The joint coordinates were updated after the IK solver moved the robot arm. |
| initial | The initial coordinates were not clear. |
| vertical | The location was denoted by vertical coordinates |
| principal | We used principal coordinates to visualize the relationships between the samples. |
| time | The time coordinates are 12:00 PM UTC. |
| barycentric | The three axes of a coordinate system can be characterized by their barycentric coordinates |
| fixed | The meeting was held at fixed coordinates |
| geodetic | The geodetic coordinates of the point are latitude 38.898556 and longitude -77.037852. |
| normalized | The image's dimensions have been converted to normalized coordinates |
| celestial | |
| canonical | Astronomers often use a set of 'canonical coordinates' to describe the orbital motion of extra-solar planets. |
| precise | The treasure map led us to the excavation site with precise coordinates |
| linear | The linear coordinates of the point were (3,-5). |
| collective | The collective coordinates of the system are the positions and momenta of the particles. |
| lagrangian | The lagrangian coordinates are defined as the coordinates of the particles in the reference configuration. |
| galactic | The astronomers observed the object at galactic coordinates of 17 hours, 45 minutes, and 27 seconds in right ascension and -28 degrees, 53 minutes, and 27 seconds in declination. |
| geocentric | Astronomers formerly used geocentric coordinates to describe celestial bodies' positions. |
| equatorial | The telescope was set to equatorial coordinates allowing it to track celestial objects as they moved across the night sky. |
| modal | The modal coordinates of the system were determined using the finite element method. |
| dimensionless | The dimensionless coordinates of the object are (0.5, 0.5). |
| projective | Projective coordinates are widely used in computer graphics and geometry. |
| thermodynamic | The thermodynamic coordinates of a system are its temperature, pressure, and volume. |
| logical | The logical coordinates do not reference where the boat actually is. |
| triangular | The triangular coordinates of a point in a plane are the distances from the point to the three sides of a triangle. |
| temporal | The temporal coordinates of the event are 1985 and 2011. |
| positional | The GPS device indicated the pirate treasure's positional coordinates |
| inertial | Inertial coordinates are frames of reference that are not accelerating. |
| space | The spacecraft's position was updated with new space coordinates |
| electronic | The electronic coordinates were used to locate the submarine. |
| nodal | The nodal coordinates of the system (x_1, x_2, ..., x_n) are uniquely determined by the initial conditions. |
| elliptic | The elliptic coordinates are a three-dimensional orthogonal coordinate system that is used to describe the location of a point in space. |
| spheroidal | The researchers found that the gravitational field near a black hole has the same spheroidal coordinates as the field near a star. |
| fractional | The fractional coordinates of the atom are 0.25, 0.25, and 0.25. |
| parallel | The parallel coordinates are plotted in a two-dimensional space. |
| parabolic | The parabolic coordinates are a two-dimensional orthogonal coordinate system that is used to solve Laplace's equation in two dimensions. |
| rectilinear | The position of the point is given by the rectilinear coordinates (3, 5). |
| generalised | The Lagrangian formulation of classical mechanics uses generalised coordinates to describe the system's configuration. |
| semilogarithmic | The data is plotted on semilogarithmic coordinates with the x-axis representing the independent variable and the y-axis representing the dependent variable. |
| isentropic | isentropic coordinates are a type of vertical coordinate that is defined by surfaces of constant potential temperature. |
| eulerian | The eulerian coordinates of the fluid flow are given by the velocity field. |
| arbitrary | The spacecraft was directed to move to arbitrary coordinates in deep space. |
| intrinsic | The surface of a cylindrical shell can be described using intrinsic coordinates |
| ellipsoidal | The ellipsoidal coordinates are defined by three parameters: \(\lambda\), \(\mu\), and \(\nu\). |
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