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- ...ion.PNG|right|200px|Wind driven by a pressure gradient is deflected by the Coriolis force, most at the poles and changing sign when crossing the equator.}} ...enced by an object traversing a path in a rotating frame of reference. The Coriolis force is proportional to the object's speed, to the frame's rate of rotation, and31 KB (5,049 words) - 11:55, 17 October 2021
- 201 bytes (33 words) - 15:33, 27 February 2011
- 554 bytes (76 words) - 09:03, 11 March 2011
- 957 bytes (150 words) - 10:17, 21 March 2011
- *{{cite web |title=Coriolis force |publisher=Department of Atmospheric Sciences: University of Illinois |work *{{cite journal |title=How do we understand the Coriolis force? |author= Anders Persson |url=http://www.aos.princeton.edu/WWWPUBLIC/gkv/hi678 bytes (97 words) - 18:26, 18 March 2011
Page text matches
- {{rpl|Coriolis force}}92 bytes (10 words) - 02:44, 25 September 2013
- ...French physicist best known for the [[inertial force]] called after him ([[Coriolis force]]).179 bytes (20 words) - 10:10, 22 March 2011
- *{{cite web |title=Coriolis force |publisher=Department of Atmospheric Sciences: University of Illinois |work *{{cite journal |title=How do we understand the Coriolis force? |author= Anders Persson |url=http://www.aos.princeton.edu/WWWPUBLIC/gkv/hi678 bytes (97 words) - 18:26, 18 March 2011
- ...inertial forces are the [[centrifugal force]] and the [[Euler force]]. The Coriolis force plays an important role in [[meteorology]], [[ballistics]], and [[oceanogra3 KB (554 words) - 20:16, 22 March 2011
- {{r|Coriolis force}}737 bytes (91 words) - 14:24, 26 September 2011
- {{r|Coriolis force}}918 bytes (145 words) - 12:13, 5 March 2011
- {{r|Coriolis force}}989 bytes (155 words) - 09:56, 22 March 2011
- ''For the inertial force in a rotating frame, see [[Coriolis force]].'' ===Role of Coriolis force===8 KB (1,230 words) - 13:00, 25 March 2011
- {{r|Coriolis force}}943 bytes (148 words) - 17:02, 5 March 2011
- and the observed [[Coriolis force]]: ...h</sub>''''' is the velocity of the bob as seen by the Earth observer. The Coriolis force accounts for the Earth observation of a daily precession of the pendulum's12 KB (2,156 words) - 12:50, 6 March 2011
- ...ion.PNG|right|200px|Wind driven by a pressure gradient is deflected by the Coriolis force, most at the poles and changing sign when crossing the equator.}} ...enced by an object traversing a path in a rotating frame of reference. The Coriolis force is proportional to the object's speed, to the frame's rate of rotation, and31 KB (5,049 words) - 11:55, 17 October 2021
- Here, the first term is the ''[[Coriolis force]]'',<ref name=Joos>{{cite book |title=Theoretical Physics|author= Georg Joo ...he tube, so '''v'''<sub>B</sub> is opposite to '''u'''<sub>1</sub> and the Coriolis force is opposite to '''u'''<sub>2</sub>, that is, against the wall of the tube.37 KB (6,039 words) - 11:21, 27 March 2011
- ...rifugal force'' is one of these inertial forces, the other two being the [[Coriolis force]] and the [[Euler force]].26 KB (4,204 words) - 22:33, 28 November 2011
- ...titious force]]s: [[centrifugal force|centrifugal]] and [[Coriolis effect|Coriolis force]] appear in the kinetic energy.31 KB (4,757 words) - 02:20, 27 October 2013
- ...s used by inertial observers. Examples are [[centrifugal force]] and the [[Coriolis force]] used by rotating observers (like us on the spinning [[Earth]], orbiting t27 KB (4,192 words) - 17:33, 19 August 2020
- ...around the Earth's axis, which introduces an inertial force known as the [[Coriolis force]] (among others).29 KB (4,366 words) - 09:10, 26 March 2011