Paraboloid - Your Art History Reference Guide!
ArtHistoryClub Information Site on Paraboloid Art History Art History Search        Art History Browse             News        Gallery        Forums        Articles        Weblinks        welcome to our free resource site for all art history lovers!

Paraboloid


In mathematics, a paraboloid is a quadric, a type of surface in three dimensions, described by the equation:

\left( \frac{x}{a} \right) ^2 + \left( \frac{y}{b} \right) ^2 + 2z = 0 (elliptic paraboloid),

or

\left( \frac{x}{a} \right) ^2 - \left( \frac{y}{b} \right) ^2 + 2z = 0 (hyperbolic paraboloid).

There are two kinds of paraboloid: elliptic and hyperbolic. The elliptic paraboloid is shaped like a cup and can have a maximum or minimum point. The hyperbolic paraboloid is shaped like a saddle and can have a critical point called a saddle point. It is a ruled surface.

With a = b an elliptic paraboloid is a paraboloid of revolution: a surface obtained by revolving a parabola around its axis. It is the shape of the parabolic reflectors used in mirrors, antenna dishes, and the like. It is also called a circular paraboloid.

A point light source at the focal point produces a parallel light beam. This also works the other way around: a parallel beam of light incident on the paraboloid is concentrated at the focal point. This applies also for other waves, hence parabolic antennas.

See also: ellipsoid, hyperboloid.

Last updated: 10-12-2005 05:49:12
Last updated: 01-04-2007 01:18:57
The contents of this article are licensed from Wikipedia.org under the
GNU Free Documentation License. See original document.
Art History Search | Art History Browse | Contact | Legal info