hyperbola|hyperbolae|hyperbolas in English
noun
[hy·per·bo·la || haɪ'pɜrbələ /-'pɜːb-]
curve consisting of two separate branches (Geometry)
Use "hyperbola|hyperbolae|hyperbolas" in a sentence
1. The four basic types of Conics are parabolas, ellipses, circles, and hyperbolas
2. Degenerate Conic A Conic which is not a parabola, ellipse, circle, or hyperbola
3. Similarly the centre of an ellipse or a hyperbola is where the axes intersect.
4. Asymptote The x-axis and y-axis are Asymptotes of the hyperbola xy = 3
5. Conic Sections Calculator Calculate area, circumferences, diameters, and radius for circles and ellipses, parabolas and hyperbolas step-by-step
6. The graph of y = Cosh(x) is a hyperbola with a local minimum at (0,1)
7. A geometric surface formed by rotating a parabola, ellipse, or hyperbola about one axis adjective Also: Conoidal (kəʊˈnɔɪdəl)
8. This Conic equation identifier helps you identify Conics by their equations eg circle, parabolla, elipse and hyperbola
9. For e=1 the Conic is a parabola, whereas when e>1 the Conic is a hyperbola
10. If the plane is parallel to the axis of revolution (the y-axis), then the Conic section is a hyperbola
11. A geometric surface formed by rotating a parabola, ellipse, or hyperbola about one axis adjective also: Conoidal (kəʊˈnɔɪdəl), Conoidic (kəʊˈnɔɪdɪk), Conoidical (kəʊˈnɔɪdɪkəl)
12. Geometrically the sum is taken along a 'hyperbola' XY = ab and we consider this as defining an algebraic curve over the finite field with p elements.
13. The foci of the ellipse x^2/16 + y^2/b^2 = 1 and the hyperbola (x^2/144) - (y^2/81) = 1/25 Coincide
14. If 0≤β<α, then the plane intersects both nappes and the Conic section so formed is known as a hyperbola (represented by the orange curves)
15. Conic sections are generated by the intersection of a plane with a cone ().If the plane is parallel to the axis of revolution (the y-axis), then the Conic section is a hyperbola
16. Apollonius was a Greek mathematician known as 'The Great Geometer'. His works had a very great influence on the development of mathematics and his famous book Conics introduced the terms parabola, ellipse and hyperbola
17. Conic sections are generated by the intersection of a plane with a cone (Figure 7.44).If the plane is parallel to the axis of revolution (the y-axis), then the Conic section is a hyperbola
18. For example, if the Antiparallels are concurrent at P and the three Euler lines are concurrent at Q, then the loci of P and Q are respectively the tangent to the Jerabek hyperbola at the Lemoine : 9
19. Burdening valve box litera batalion oftener (military) active duty unanimous Josephson device Surinam rosoinen at-znak Ajax ironija tracing cloth wlewanie moriagari thoughtless about animals, concerning zoology, concerning the science that deals with animals (animal life, animal research, etc.), of scientific study of animals hyperbolas
20. Projective Conic sectionsThe Conic sections (ellipse, parabola, and hyperbola) can be generated by projecting the circle formed by the intersection of a cone with a plane (the reality plane, or RP) perpendicular to the cone's central axis.The image of the circle is projected onto a plane (the projective plane, or PP) that is oriented at the same angle as the cutting plane (Ω) passing through
21. So also each Conic has a "typical" equation form, sometimes along the lines of the following: parabola: Ax 2 + Dx + Ey = 0 circle: x 2 + y 2 + Dx + Ey + F = 0 ellipse: Ax 2 + Cy 2 + Dx + Ey + F = 0 hyperbola: Ax 2 – Cy 2 + Dx + Ey + F = 0 These equations can be rearranged in various ways, and each Conic has its own special form that you'll need to learn to recognize, but some