- n.〚after G. G. de Coriolis (1792-1843), Fr mathematician〛an apparent deflective force acting on a moving object, as an airplane, that is being observed from a rotating system, as the surface of the earth: it is proportional to the speed of the object and is in a direction perpendicular to its direction of motion
* * *Apparent force that must be included if Newton's laws of motion are to be used in a rotating system.First described by Gustave-Gaspard Coriolis (1792–1843) in 1835, the force acts to the right of the direction of body motion for counterclockwise rotation and to the left for clockwise rotation. On Earth an object that moves along a north-south path, or longitudinal line, will be apparently deflected to the right in the Northern Hemisphere and to the left in the Southern Hemisphere. The deflection is related to the motion of the object, the motion of the Earth, and latitude. The Coriolis effect is important in meteorology and oceanography as well as ballistics; it also has great significance in astrophysics.
* * *▪ physicsin classical mechanics, an inertial force described by the 19th-century French engineer-mathematician Gustave-Gaspard Coriolis in 1835. Coriolis showed that, if the ordinary Newtonian laws of motion of bodies are to be used in a rotating frame of reference (reference frame), an inertial force—acting to the right of the direction of body motion for counterclockwise rotation of the reference frame or to the left for clockwise rotation—must be included in the equations of motion.The effect of the Coriolis force is an apparent deflection of the path of an object that moves within a rotating coordinate system. The object does not actually deviate from its path, but it appears to do so because of the motion of the coordinate system.The Coriolis effect is most apparent in the path of an object moving longitudinally. On the Earth an object that moves along a north-south path, or longitudinal line, will undergo apparent deflection to the right in the Northern Hemisphere and to the left in the Southern Hemisphere. There are two reasons for this phenomenon: first, the Earth rotates eastward; and second, the tangential velocity of a point on the Earth is a function of latitude (the velocity is essentially zero at the poles and it attains a maximum value at the Equator). Thus, if a cannon were fired northward from a point on the Equator, the projectile would land to the east of its due north path. This variation would occur because the projectile was moving eastward faster at the Equator than was its target farther north. Similarly, if the weapon were fired toward the Equator from the North Pole, the projectile would again land to the right of its true path. In this case, the target area would have moved eastward before the shell reached it because of its greater eastward velocity. An exactly similar displacement occurs if the projectile is fired in any direction.The Coriolis deflection is therefore related to the motion of the object, the motion of the Earth, and the latitude. For this reason, the magnitude of the effect is given by 2νω sin ϕ, in which ν is the velocity of the object, ω is the angular velocity of the Earth, and ϕ is the latitude.The Coriolis effect has great significance in astrophysics and stellar dynamics, in which it is a controlling factor in the directions of rotation of sunspots (sunspot). It is also significant in the earth sciences, especially meteorology, physical geology, and oceanography, in that the Earth is a rotating frame of reference, and motions over the surface of the Earth are subject to acceleration from the force indicated. Thus, the Coriolis force figures prominently in studies of the dynamics of the atmosphere, in which it affects prevailing winds and the rotation of storms, and in the hydrosphere, in which it affects the rotation of the oceanic currents. It is also an important consideration in ballistics, particularly in the launching and orbiting of space vehicles. In modern physics, application of a quantity analogous to Coriolis force appears in electrodynamics wherever instantaneous voltages generated in rotating electrical machinery must be calculated relative to the moving reference frame: this compensation is called the Christoffel voltage.
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Coriolis force — n. [after G. G. de Coriolis (1792 1843), Fr mathematician] an apparent deflective force acting on a moving object, as an airplane, that is being observed from a rotating system, as the surface of the earth: it is proportional to the speed of the… … English World dictionary
Coriolis force — noun (physics) a force due to the earth s rotation; acts on a body in motion (airplane or projectile) in a rotating reference frame; in a rotating frame of reference Newton s second law of motion can be made to apply if in addition to the real… … Useful english dictionary
Coriolis force — An apparent force experienced by a body moving relative to the rotating earth. The wind blowing from the poles toward the equator turns to the right in the Northern Hemisphere and to the left in the Southern Hemisphere because of this Coriolis… … Aviation dictionary
Coriolis force — Koriolio jėga statusas T sritis Standartizacija ir metrologija apibrėžtis Apibrėžtį žr. priede. priedas( ai) Grafinis formatas atitikmenys: angl. compound centrifugal force; Coriolis force vok. Coriolis Kraft, f; zusammengesetzte Kraft, f; zweite … Penkiakalbis aiškinamasis metrologijos terminų žodynas
Coriolis force — Koriolio jėga statusas T sritis fizika atitikmenys: angl. compound centrifugal force; Coriolis force vok. Coriolis Kraft, f; zusammengesetzte Zentrifugalkraft, f; zweite Zusatzkraft, f rus. сила инерции Кориолиса, f; сила Кориолиса, f; составная… … Fizikos terminų žodynas
Coriolis force — noun Etymology: Gaspard G. Coriolis died 1843 French civil engineer Date: 1923 an apparent force that as a result of the earth s rotation deflects moving objects (as projectiles or air currents) to the right in the northern hemisphere and to the… … New Collegiate Dictionary
Coriolis force — /kɒriˈoʊləs fɔs/ (say koree ohluhs faws) noun an imaginary force that, to an observer on the earth s surface, appears to act at right angles to the path of objects moving relative to the rotating earth; used to explain the lateral direction of… … Australian English dictionary
Coriolis force — noun A force exerted on a parcel of air (or any moving body) due to the rotation of the earth. This force causes a deflection of the body to the right in the northern hemisphere and to the left in the southern hemisphere … Wiktionary
coriolis force — the effect of drag from the earth rotation on airflow … Geography glossary
Force De Coriolis — Le sens de rotation de cette basse pression tournant au large de l Islande dans le sens contraire des aiguilles d une montre est dû aux effets combinés de la force de Coriolis et du gradient de pression. La force de Coriolis est une force… … Wikipédia en Français