epicycle
[ ep-uh-sahy-kuh l ]
/ ˈɛp əˌsaɪ kəl /
noun
Astronomy.
a small circle the center of which moves around in the circumference of a larger circle: used in Ptolemaic astronomy to account for observed periodic irregularities in planetary motions.
Mathematics.
a circle that rolls, externally or internally, without slipping, on another circle, generating an epicycloid or hypocycloid.
Origin of epicycle
OTHER WORDS FROM epicycle
ep·i·cy·clic [ep-uh-sahy-klik, -sik-lik] /ˌɛp əˈsaɪ klɪk, -ˈsɪk lɪk/, adjectiveWords nearby epicycle
Example sentences from the Web for epicyclic
In the high gear position the epicyclic toothed wheels are to the extreme left position.
British Dictionary definitions for epicyclic
epicycle
/ (ˈɛpɪˌsaɪkəl) /
noun
astronomy
(in the Ptolemaic system) a small circle, around which a planet was thought to revolve, whose centre describes a larger circle (the deferent) centred on the earth
a circle that rolls around the inside or outside of another circle, so generating an epicycloid or hypocycloid
Derived forms of epicycle
epicyclic (ˌɛpɪˈsaɪklɪk, -ˈsɪklɪk) or epicyclical, adjectiveWord Origin for epicycle
C14: from Late Latin
epicyclus, from Greek
epikuklos; see
epi-,
cycle
Scientific definitions for epicyclic
epicycle
[ ĕp′ĭ-sī′kəl ]
In Ptolemaic cosmology, a small circle representing a temporary adjustment to the position of a planet as it orbits the Earth. The five known planets, along with the Sun and Moon, were conceived as moving through the sky in large circular paths with the Earth at their center. As a planet moved along its path, it occasionally departed from its regular motion to follow a much smaller circle centered on the orbital path itself. These smaller circles, or epicycles, were necessary to reconcile the observed motions of the planets with a geocentric model of the universe. The epicycles of the inferior planets Mercury and Venus were fixed to the orbit of the Sun and explained why those planets were never observed far from it in the sky. The epicycles of the superior planets Mars, Jupiter, and Saturn explained why those bodies were sometimes observed to move backward in their orbits, a phenomenon known as retrograde motion and explained in a heliocentric model by the differing orbital velocities of the Earth and the planet being observed. See illustration at Ptolemaic system.
A circle whose circumference rolls along the circumference of a fixed circle, thereby generating an epicycloid or a hypocycloid.