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HYPERCYCLE GEOMETRY

  • Hypercycle (geometry)
  • Type of curve in hyperbolic geometry

    In hyperbolic geometry, a hypercycle, hypercircle or equidistant curve is a curve whose points have the same orthogonal distance from a given straight

    Hypercycle (geometry)

    Hypercycle (geometry)

    Hypercycle_(geometry)

  • Hypercycle
  • Topics referred to by the same term

    Hypercycle may refer to: Hypercycle (chemistry), a kind of reaction network prominent in a theory of the self-organization of matter Hypercycle (geometry)

    Hypercycle

    Hypercycle

  • Hyperbolic geometry
  • Type of non-Euclidean geometry

    Euclidean geometry, each hyperbolic triangle has an incircle. In hyperbolic space, if all three of its vertices lie on a horocycle or hypercycle, then the

    Hyperbolic geometry

    Hyperbolic geometry

    Hyperbolic_geometry

  • Horocycle
  • Curve whose normals converge asymptotically

    geometry have some properties similar to those of circles in Euclidean geometry: No three points of a horocycle are on a line, circle or hypercycle.

    Horocycle

    Horocycle

    Horocycle

  • Order-4-3 pentagonal honeycomb
  • infinite cell is an order-4 pentagonal tiling whose vertices lie on a 2-hypercycle, each of which has a limiting circle on the ideal sphere. The Schläfli

    Order-4-3 pentagonal honeycomb

    Order-4-3_pentagonal_honeycomb

  • Order-6-3 square honeycomb
  • infinite cell consists of a hexagonal tiling whose vertices lie on a 2-hypercycle, each of which has a limiting circle on the ideal sphere. The Schläfli

    Order-6-3 square honeycomb

    Order-6-3_square_honeycomb

  • Order-3-5 heptagonal honeycomb
  • infinite cell consists of a heptagonal tiling whose vertices lie on a 2-hypercycle, each of which has a limiting circle on the ideal sphere. The Schläfli

    Order-3-5 heptagonal honeycomb

    Order-3-5_heptagonal_honeycomb

  • Perpendicular distance
  • Distance from one geometric object to another along a line perpendicular to both

    fitting and for defining offset surfaces. Distance between sets Hypercycle (geometry) Moment of inertia Signed distance Ballantine, J. P.; Jerbert, A

    Perpendicular distance

    Perpendicular_distance

  • Order-5-3 square honeycomb
  • infinite cell consists of a pentagonal tiling whose vertices lie on a 2-hypercycle, each of which has a limiting circle on the ideal sphere. The Schläfli

    Order-5-3 square honeycomb

    Order-5-3_square_honeycomb

  • Foundations of geometry
  • Study of geometries as axiomatic systems

    in hyperbolic geometry (they form a hypercycle.) Advocates of the position that Euclidean geometry is the one and only "true" geometry received a setback

    Foundations of geometry

    Foundations_of_geometry

  • Order-7-3 triangular honeycomb
  • infinite cell consists of a heptagonal tiling whose vertices lie on a 2-hypercycle, each of which has a limiting circle on the ideal sphere. The Schläfli

    Order-7-3 triangular honeycomb

    Order-7-3_triangular_honeycomb

  • Descartes' theorem
  • Equation for radii of tangent circles

    also holds for mutually tangent configurations in hyperbolic geometry including hypercycles and horocycles, if k j {\displaystyle k_{j}} is the geodesic

    Descartes' theorem

    Descartes' theorem

    Descartes'_theorem

  • Equidistant
  • Concept in geometry

    all points. In hyperbolic geometry the set of points that are equidistant from and on one side of a given line form a hypercycle (which is a curve, not a

    Equidistant

    Equidistant

    Equidistant

  • Order-4-4 pentagonal honeycomb
  • infinite cell consists of a pentagonal tiling whose vertices lie on a 2-hypercycle, each of which has a limiting circle on the ideal sphere. The Schläfli

    Order-4-4 pentagonal honeycomb

    Order-4-4_pentagonal_honeycomb

  • Order-3-6 heptagonal honeycomb
  • infinite cell consists of a heptagonal tiling whose vertices lie on a 2-hypercycle, each of which has a limiting circle on the ideal sphere. The Schläfli

    Order-3-6 heptagonal honeycomb

    Order-3-6_heptagonal_honeycomb

  • Poincaré disk model
  • Model of hyperbolic geometry

    In geometry, the Poincaré disk model, also called the conformal disk model, is a model of 2-dimensional hyperbolic geometry in which all points are inside

    Poincaré disk model

    Poincaré disk model

    Poincaré_disk_model

  • Beltrami–Klein model
  • Model of hyperbolic geometry

    not distorted. All other circles are distorted, as are horocycles and hypercycles. Chords that meet on the boundary circle are limiting parallel lines

    Beltrami–Klein model

    Beltrami–Klein model

    Beltrami–Klein_model

  • Circle Limit III
  • 1959 woodcut by M. C. Escher

    the squares and triangles are formed by arcs of hypercycles, which are not straight in hyperbolic geometry, but which connect smoothly to each other without

    Circle Limit III

    Circle_Limit_III

  • Order-8-3 triangular honeycomb
  • infinite cell consists of an octagonal tiling whose vertices lie on a 2-hypercycle, each of which has a limiting circle on the ideal sphere. The Schläfli

    Order-8-3 triangular honeycomb

    Order-8-3_triangular_honeycomb

  • Constructions in hyperbolic geometry
  • Hyperbolic geometry is a non-Euclidean geometry where the first four axioms of Euclidean geometry are kept but the fifth axiom, the parallel postulate

    Constructions in hyperbolic geometry

    Constructions in hyperbolic geometry

    Constructions_in_hyperbolic_geometry

  • Poincaré half-plane model
  • Upper-half plane model of hyperbolic non-Euclidean geometry

    projection of the sphere it projects generalized circles (geodesics, hypercycles, horocycles, and circles) in the hyperbolic plane to generalized circles

    Poincaré half-plane model

    Poincaré half-plane model

    Poincaré_half-plane_model

  • Sum of angles of a triangle
  • Fundamental result in geometry

    pairs of curves called hypercycles, and the foliation is non-singular. In Taxicab Geometry, a type of non-Euclidean geometry where distance is measured

    Sum of angles of a triangle

    Sum of angles of a triangle

    Sum_of_angles_of_a_triangle

  • Order-3-4 heptagonal honeycomb
  • infinite cell consists of a heptagonal tiling whose vertices lie on a 2-hypercycle, each of which has a limiting circle on the ideal sphere. The Schläfli

    Order-3-4 heptagonal honeycomb

    Order-3-4_heptagonal_honeycomb

  • Laguerre transformations
  • Möbius geometry, where lines and circles can be mapped to each other, but neither can be mapped to points. Both Möbius geometry and Laguerre geometry are

    Laguerre transformations

    Laguerre_transformations

  • Horosphere
  • Hypersurface in hyperbolic space

    the surface would be an (N − 1)-dimensional hypercycle. Roberto Bonola (1906), Non-Euclidean Geometry, translated by H.S. Carslaw, Dover, 1955; p. 63

    Horosphere

    Horosphere

    Horosphere

  • Hyperbolic triangle
  • Triangle in hyperbolic geometry

    horocycle or hypercycle. Hyperbolic triangles have some properties that are analogous to those of triangles in spherical or elliptic geometry: Two triangles

    Hyperbolic triangle

    Hyperbolic triangle

    Hyperbolic_triangle

  • Alternated octagonal tiling
  • Uniform tiling of the hyperbolic plane

    angle at each vertex, while in Escher's woodcut they appear to be smooth hypercycles. Circle Limit III Square tiling Uniform tilings in hyperbolic plane List

    Alternated octagonal tiling

    Alternated octagonal tiling

    Alternated_octagonal_tiling

  • Hyperbolic motion
  • Isometric automorphisms of a hyperbolic space

    perpendicular to the given line; points off the given line move along hypercycles; three degrees of freedom. Orientation reversing reflection through a

    Hyperbolic motion

    Hyperbolic_motion

  • Order-6 hexagonal tiling honeycomb
  • and with all vertices on the ideal surface. It contains and that tile 2-hypercycle surfaces, which are similar to the paracompact tilings and (the truncated

    Order-6 hexagonal tiling honeycomb

    Order-6 hexagonal tiling honeycomb

    Order-6_hexagonal_tiling_honeycomb

  • Lexell's theorem
  • Characterizes spherical triangles with fixed base and area

    also be proven for hyperbolic triangles, for which the apex lies on a hypercycle. Given a fixed base A B , {\displaystyle AB,} an arc of a great circle

    Lexell's theorem

    Lexell's theorem

    Lexell's_theorem

  • Order-4 octahedral honeycomb
  • domain, [((3,∞,3)),((3,∞,3))]: . This honeycomb contains and that tile 2-hypercycle surfaces, which are similar to the paracompact infinite-order triangular

    Order-4 octahedral honeycomb

    Order-4 octahedral honeycomb

    Order-4_octahedral_honeycomb

  • Order-4 square tiling honeycomb
  • and with all vertices on the ideal surface. It contains and that tile 2-hypercycle surfaces, which are similar to these paracompact order-4 apeirogonal tilings

    Order-4 square tiling honeycomb

    Order-4 square tiling honeycomb

    Order-4_square_tiling_honeycomb

  • Square tiling honeycomb
  • pairs of ultraparallel mirrors: . This honeycomb contains that tile 2-hypercycle surfaces, which are similar to the paracompact order-3 apeirogonal tiling

    Square tiling honeycomb

    Square tiling honeycomb

    Square_tiling_honeycomb

  • List of regular polytopes
  • the Euclidean plane, with the vertices circumscribed by horocycles or hypercycles rather than circles. Regular apeirogons that are scaled to converge at

    List of regular polytopes

    List of regular polytopes

    List_of_regular_polytopes

  • Order-4 hexagonal tiling honeycomb
  • honeycomb. The order-4 hexagonal tiling honeycomb contains , which tile 2-hypercycle surfaces and are similar to the truncated infinite-order triangular tiling

    Order-4 hexagonal tiling honeycomb

    Order-4 hexagonal tiling honeycomb

    Order-4_hexagonal_tiling_honeycomb

  • Band model
  • boundary. Lines parallel to the boundaries of the band within the band are hypercycles whose common axis is the line through the middle of the band. Mercator

    Band model

    Band model

    Band_model

  • Coordinate systems for the hyperbolic plane
  • Category of coordinate systems

    (see Lambert quadrilateral). Also in hyperbolic geometry there are no equidistant lines (see hypercycles). This all has influences on the coordinate systems

    Coordinate systems for the hyperbolic plane

    Coordinate_systems_for_the_hyperbolic_plane

  • Regular polyhedron
  • Polyhedron with regular congruent polygons as faces

    honeycomb {7,3,3}; they are inscribed in an equidistant surface (a 2-hypercycle), which has two ideal points. Another group of regular polyhedra comprise

    Regular polyhedron

    Regular_polyhedron

  • List of Greek and Latin roots in English/A–G
  • All Latin and Greek roots beginning with G

    epicycle, epicycloid, hemicycle, hemicyclium, heterocyclic, homocyclic, hypercycle, hypocycloid, isocyclic, mesocyclone, monocyclic, polycyclic, pseudocyclosis

    List of Greek and Latin roots in English/A–G

    List_of_Greek_and_Latin_roots_in_English/A–G

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  • Euclid
  • Boy/Male

    Greek

    Euclid

    Greek surname. Euclid was an early developer of geometry theories.

    Euclid

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Online names & meanings

  • Hosanna
  • Biblical

    Hosanna

    save I pray thee; keep; preserve

  • THIBAULT
  • Male

    French

    THIBAULT

    Variant spelling of Old French Thibauld, THIBAULT means "people-bold."

  • Tymon
  • Boy/Male

    Greek

    Tymon

    God fearing.

  • Mattingley
  • Surname or Lastname

    English

    Mattingley

    English : variant spelling of Mattingly.

  • SHIKOBA
  • Female

    Native American

    SHIKOBA

    Native American Choctaw unisex name SHIKOBA means "feather."

  • Todman
  • Surname or Lastname

    English

    Todman

    English : variant of Tudman, a habitational name for someone from either of two places in Norfolk and Suffolk called Tuddenham, from the genitive form of the Old English personal name Tūda + hām ‘homestead’, ‘settlement’.

  • KEIJI
  • Male

    Japanese

    KEIJI

    (敬二) Japanese name KEIJI means "respectful second (son)."

  • Anida |
  • Girl/Female

    Muslim

    Anida |

    Obstinate

  • Yeshwin
  • Boy/Male

    Indian, Telugu

    Yeshwin

    Fame

  • Anbarin
  • Girl/Female

    Arabic, Muslim

    Anbarin

    Of Ambergris

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Other words and meanings similar to

HYPERCYCLE GEOMETRY

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HYPERCYCLE GEOMETRY

  • Quadrivium
  • n.

    The four "liberal arts," arithmetic, music, geometry, and astronomy; -- so called by the schoolmen. See Trivium.

  • Navigation
  • n.

    the science or art of conducting ships or vessels from one place to another, including, more especially, the method of determining a ship's position, course, distance passed over, etc., on the surface of the globe, by the principles of geometry and astronomy.

  • Problem
  • n.

    Anything which is required to be done; as, in geometry, to bisect a line, to draw a perpendicular; or, in algebra, to find an unknown quantity.

  • Euclid
  • n.

    A Greek geometer of the 3d century b. c.; also, his treatise on geometry, and hence, the principles of geometry, in general.

  • Geometrician
  • n.

    One skilled in geometry; a geometer; a mathematician.

  • Spherics
  • n.

    The doctrine of the sphere; the science of the properties and relations of the circles, figures, and other magnitudes of a sphere, produced by planes intersecting it; spherical geometry and trigonometry.

  • Skilled
  • a.

    Having familiar knowledge united with readiness and dexterity in its application; familiarly acquainted with; expert; skillful; -- often followed by in; as, a person skilled in drawing or geometry.

  • Geometrize
  • v. i.

    To investigate or apprehend geometrical quantities or laws; to make geometrical constructions; to proceed in accordance with the principles of geometry.

  • Geometry
  • n.

    That branch of mathematics which investigates the relations, properties, and measurement of solids, surfaces, lines, and angles; the science which treats of the properties and relations of magnitudes; the science of the relations of space.

  • Mensuration
  • n.

    That branch of applied geometry which gives rules for finding the length of lines, the areas of surfaces, or the volumes of solids, from certain simple data of lines and angles.

  • Euclidian
  • n.

    Related to Euclid, or to the geometry of Euclid.

  • Infinity
  • n.

    That part of a line, or of a plane, or of space, which is infinitely distant. In modern geometry, parallel lines or planes are sometimes treated as lines or planes meeting at infinity.

  • Geometries
  • pl.

    of Geometry

  • Studied
  • a.

    Well versed in any branch of learning; qualified by study; learned; as, a man well studied in geometry.

  • Superposition
  • n.

    The act of superposing, or the state of being superposed; as, the superposition of rocks; the superposition of one plane figure on another, in geometry.

  • Stereography
  • n.

    The art of delineating the forms of solid bodies on a plane; a branch of solid geometry which shows the construction of all solids which are regularly defined.

  • Geometry
  • n.

    A treatise on this science.

  • Survey
  • v. t.

    To determine the form, extent, position, etc., of, as a tract of land, a coast, harbor, or the like, by means of linear and angular measurments, and the application of the principles of geometry and trigonometry; as, to survey land or a coast.

  • Element
  • n.

    The simplest or fundamental principles of any system in philosophy, science, or art; rudiments; as, the elements of geometry, or of music.

  • Conics
  • n.

    That branch of geometry which treats of the cone and the curves which arise from its sections.