quadric equation - translation to greek
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quadric equation - translation to greek

LOCUS OF ZEROS OF A QUADRATIC POLYNOMIAL (AFFINE OR PROJECTIVE, NOT NECESSARILY REAL)
Quadric surface; Quadric (projective geometry); Quadric (Projective Geometry); Quadratic surface; Quadric hypersurface; Hyperbolic quadric; Quadric cone; Quadratic hypersurface; Quadrics

quadric equation      
δευτεροβάθμια εξίσωση
δευτεροβάθμια εξίσωση         
quadric equation
convex lens         
  • 400px
  • Close-up view of a flat [[Fresnel lens]].
  • LSST]], a planned sky surveying telescope
  • 250px
  • 400px
  • Lenses can be used to focus light
  • Types of lenses
  • Meniscus lenses: negative (top) and positive (bottom)
  • Light being refracted by a spherical glass container full of water. [[Roger Bacon]], 13th century
  • An aspheric biconvex lens.
  • The position of the focus of a spherical lens depends on the radii of curvature of the two facets.
  • A watch with a plano-convex lens over the date indicator
  • Images of black letters in a thin convex lens of focal length ''f'' are shown in red. Selected rays are shown for letters '''E''', '''I''' and '''K''' in blue, green and orange, respectively. '''E''' (at 2''f'') has an equal-size, real and inverted image; '''I''' (at ''f'') has its image at [[infinity]]; and '''K''' (at ''f''/2) has a double-size, virtual and upright image.
OPTICAL DEVICE WHICH TRANSMITS AND REFRACTS LIGHT
Convex lens; Concave lens; Lenses; Optical lens; Thin Lens Formula; Thin lens formula; Lens maker's formula; Lens Maker's Formula; Lens formula; Lens Formula; Diverging lens; Lens maker equation; Lensmaker's equation; Lens maker's equation; Lens makers equation; Converging lens; Biconvex lens; Biconcave lens; Convex Lens; Meniscus lens; Crystal Lens; Curved lens; Spherical lens; Convex lenses; Compound lens; Lensmaker's formula; Lensmakers' equation; Lensmakers' forumula; Lensmakers forumula; Lensmakers equation; Lensmaker equation; Lensmaker formula; Plano-convex lens; Double convex lens; Plano-concave lens; Convex-concave lens; Negative lens; Equiconvex lens; Real-is-positive convention; Lens equation; Biconcave; Planoconcave; Plus lens; Convexo-concave lens; Minus lens; Conventional lens; LENS; Singlet (lens); Double-convex lens; Double concave lens; Double-concave lens; Bi-convex lens; Bi-concave lens; Double-convex converging lens; Double convex converging lens; Biconvex converging lens; Bi-convex converging lens; Double-concave diverging lens; Biconcave diverging lens; Bi-concave diverging lens; Double concave diverging lens; Meniscus (optics); Positive lens; Plano-concave; Planoconvex lens; Lens (optics); Optical lenses
κυρτός φακός

Definition

Quadric
·adj Of or pertaining to the second degree.
II. Quadric ·noun A quantic of the second degree. ·see Quantic.
III. Quadric ·noun A surface whose equation in three variables is of the second degree. Spheres, spheroids, ellipsoids, paraboloids, hyperboloids, also cones and cylinders with circular bases, are quadrics.

Wikipedia

Quadric

In mathematics, a quadric or quadric surface (quadric hypersurface in higher dimensions), is a generalization of conic sections (ellipses, parabolas, and hyperbolas). It is a hypersurface (of dimension D) in a (D + 1)-dimensional space, and it is defined as the zero set of an irreducible polynomial of degree two in D + 1 variables; for example, D = 1 in the case of conic sections. When the defining polynomial is not absolutely irreducible, the zero set is generally not considered a quadric, although it is often called a degenerate quadric or a reducible quadric.

In coordinates x1, x2, ..., xD+1, the general quadric is thus defined by the algebraic equation

i , j = 1 D + 1 x i Q i j x j + i = 1 D + 1 P i x i + R = 0 {\displaystyle \sum _{i,j=1}^{D+1}x_{i}Q_{ij}x_{j}+\sum _{i=1}^{D+1}P_{i}x_{i}+R=0}

which may be compactly written in vector and matrix notation as:

x Q x T + P x T + R = 0 {\displaystyle xQx^{\mathrm {T} }+Px^{\mathrm {T} }+R=0\,}

where x = (x1, x2, ..., xD+1) is a row vector, xT is the transpose of x (a column vector), Q is a (D + 1) × (D + 1) matrix and P is a (D + 1)-dimensional row vector and R a scalar constant. The values Q, P and R are often taken to be over real numbers or complex numbers, but a quadric may be defined over any field.

A quadric is an affine algebraic variety, or, if it is reducible, an affine algebraic set. Quadrics may also be defined in projective spaces; see § Normal form of projective quadrics, below.