(Askeri) CORİOLİS ETKİSİ, CORİOLİS OLAYI (HV.): Hareket halindeki bir cisimde Arzın ekseni etrafında dönüşünden ileri gelen ve yatay hareketleri, kuzey yarım küresinde dönüş istikametinin sağına güney yarım kürede soluna kaydıran yan sapması
coriolis effect teriminin İngilizce İngilizce sözlükte anlamı
{i} appearance that a moving body deflects from a straight line course (caused by the Earth's rotation)
Force due to the Earth's rotation, capable of generating currents It causes moving bodies to be deflected to the right in the Northern Hemisphere and to the left in the Southern Hemisphere The "force" is proportional to the speed and latitude of the moving object It is zero at the equator and maximum at the poles
the effect of the the Earth's rotation on the atmosphere and on all objects on the Earth's surface In the northern hemisphere it causes moving objects and currents to be deflected to the right; in the southern hemisphere it causes deflection to the left The Coriolis effect can be easily observed by watching water go down a plughole - it does not flow directly downwards but spins to the right (clockwise) or to the left (anticlockwise), depending on whether the observer is in the north- ern or southern hemisphere
The apparent tendency of moving objects, as seen from the rotating surface of a planet, to veer off to one side or the other, depending on whether the object is north or south of the equator
The influence of friction and drag on air layers near the earth; deflects air currents to the direction of the earth's rotation
The apparent deflection of moving objects to the right of their intended path (in the Northern Hemisphere) or to the left (in the Southern Hemisphere), in most cases resulting form the differing speeds at which various latitudes rotate
The apparent curving motion of anything, such as wind, caused by Earth's rotation It was first described in 1835 by French scientist Gustave-Gaspard Coriolis
Physics an effect whereby a body moving relative to a rotating frame of reference is accelerated in a direction perpendicular both to its direction of motion and to the axis of rotation of the frame The effect helps to explain global wind patterns (rotating clockwise in the northern hemisphere, anticlockwise in the southern) and the trajectories of rockets over the Earth's surface
The acceleration which a body experiences when it moves across the surface of a rotating body The acceleration results in a westward deflection of projectiles and currents of air or water when they move toward the Earth's equator and an eastward deflection when they move away from the equator
The tendency for linear motion to be deflected in a rotating (non-inertial) reference frame In most geophysical circumstance, the horizontal deflection of horizontal motion is most significant Zonal motion experiences an acceleration -f v and meridional motion experiences an accleration f u in which u and v are the zonal and meridional components of velocity, respectively, and f is the Coriolis parameter
A force per unit mass that arises solely from the earth's rotation, acting as a deflecting force It is dependent on the latitude and the speed of the moving object In the Northern Hemisphere, air is deflected to the right of its path, while in the Southern Hemisphere, air is deflected to the left of its path It is greatest at the poles, North and South, and almost nonexistent at the equator
In synoptic scale weather systems (hurricanes and large mid-latitude storms), the Coriolis force causes the air to rotate around a low pressure center in a cyclonic direction The air flowing around a hurricane spins counter-clockwise in the northern hemisphere, and clockwise in the southern hemisphere (as does the earth, itself) In both hemispheres, this rotation is called cyclonic If the earth did not rotate, the air would flow directly in towards the low pressure center, but on a spinning earth, the Coriolis force results in the are arcing in towards the low pressure center The coriolis force is of much too small a magnitude to have any relevance to the direction of rotation in a sink or toilet
A force per unit mass that arises solely from the earth's in rotation, acting as a deflecting force It is dependent on the latitude and the speed of the moving air mass In the Northern Hemisphere, air is deflected to the right of its path, while in the Southern Hemisphere, air is deflected to the left of its path It is greatest at the poles, North and South, and almost nonexistent at the equator
the deflection sideways of an object moving across the surface of a rotating body caused by the rotation of the body The coriolis effect makes storms spiral on the Earth and produces the banded cloud layers on the gas giant planets
(physics) an effect whereby a body moving in a rotating frame of reference experiences the Coriolis force acting perpendicular to the direction of motion and to the axis of rotation; on Earth the Coriolis effect deflects moving bodies to the right in theNorthern Hemisphere and to the left in the Southern Hemisphere
The apparent curving of wind or ocean currents caused by the rotation of the Earth under an air mass (or body of water) Imagine a spinning disk (like a CD or LP) If you scratched a line from the center to the edge while the disk was spinning, the resulting line would be curved In case you were wondering, it is a myth that the Coriolis Effect impacts your bathtub drain; it is not strong enough to do that Do a few tests and, unless your drain is possessed, you'll get roughly equal numbers of clockwise and counterclockwise rotations
The deflective effect of the earth's rotation on all free-moving objects, including the atmosphere and oceans To the right in the northern hemisphere and left in the southern hemisphere
The deflection of air currents in atmospheric circulation cells due to the rotation of the earth