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From Glossary of Meteorology
- ...os-Cex08]]</div> is a [[convective acceleration]]. These are the nonlinear terms in Eulerian expressions for the rate of change of the [[dependent variable748 bytes (103 words) - 13:58, 20 February 2012
- ...]], [[Reynolds averaging]].</div><br/> </div><div class="reference">Starr, V. P. 1966. Physics of Negative Viscosity Phenomena. McGraw-Hill Pub. Co., .2 KB (241 words) - 16:35, 25 April 2012
- ...re ''f'' is the [[Coriolis parameter]]. Thus, the radius of curvature is ''V''/''f'', which is about 10 km for a 1 m s<sup>-1</sup> current.</div><br/>956 bytes (140 words) - 14:28, 20 February 2012
- ...be written as ''V''<sup>2</sup>/''R'', in terms of the [[linear]] speed ''V''. This force (per unit mass) is equal and opposite to the [[centripetal a914 bytes (136 words) - 16:38, 26 January 2012
- ...sole]].</div><br/> <div class="paragraph">(These terms were introduced by V. W. Ekman in 1923.) <br/>''See also'' [[withershins]].</div><br/> </div>541 bytes (74 words) - 16:45, 26 January 2012
- ...ssed in terms of height ∂''V''/∂''z'' or of [[pressure]] ∂''V''/∂''p'' as the vertical coordinate. If the [[wind]] is [[geostrophic845 bytes (126 words) - 17:16, 25 April 2012
- ...k''' is the vertical unit [[vector]], ''f'' the [[Coriolis parameter]], '''V'''<sub>''g''</sub> the [[geostrophic wind]], α the [[specific volu1 KB (187 words) - 16:15, 25 April 2012
- ...rature]], ''T''<sub>''v''</sub> is the [[virtual temperature]], (''U'', ''V'') are the horizontal Cartesian [[wind]] components from the west and the2 KB (245 words) - 08:27, 24 August 2023
- ...n Hemisphere and to the right in the Southern Hemisphere. Its magnitude ''V''<sub>''T''</sub> is given by the formula <div class="display-formula"><bl1 KB (194 words) - 17:05, 25 April 2012
- ...average. The ratio of the buoyant to the negative of the shear production terms is also known as the [[flux Richardson number]] and is a measure of [[dynam2 KB (212 words) - 16:52, 25 April 2012
- ...]] of the vector [[equations of motion|equation of motion]]. When the two terms in the divergence are neglected, this equation becomes the [[balance equati1 KB (159 words) - 15:49, 25 April 2012
- ...pure shearing deformation field (''u'' = ''a''′<sub>0</sub>''y'', ''v'' = ''a''′<sub>0</sub>''x'') is also characterized by rectangular hyp2 KB (266 words) - 14:02, 20 February 2012
- ...glos-De49]]</blockquote></div> where ''c''<sub>''p''</sub> and ''c''<sub>''v''</sub> are the [[specific heats]] of [[dry air]] at constant pressure and1 KB (140 words) - 15:50, 25 April 2012
- ...if|link=|center|ams2001glos-Se2]]</blockquote></div> where Δ<sub>''v''</sub>''D'' is the [[variation]] in [[D-value]] for a given Δ''z''1 KB (145 words) - 17:54, 26 January 2012
- ...agraph">The right-hand side of the omega equation can also be expressed in terms of the [[divergence]] of the '''Q''' [[vector]].</div><br/> </div><div cla1 KB (168 words) - 16:32, 25 April 2012
- ...value) is a numerical constant common to all members of the series and ''v''<sub>i</sub>, the random error, is an unpredictable [[deviation]] from  KB (204 words) - 17:49, 26 January 2012
- ...rgence]]. The second term on the right is the [[Rossby parameter]] times ''v'' and represents the change in vorticity resulting from latitudinal displa3 KB (400 words) - 17:13, 25 April 2012
- ...northward, and vertically upward directions, respectively. The first two terms compose the [[horizontal advection]] and the last term is the [[vertical a2 KB (219 words) - 21:00, 13 January 2024
- ...ure due to vertical motion through the level ''h''. In general, these two terms balance one another so that the pressure tendency is obtained as a small d2 KB (350 words) - 17:04, 25 April 2012
