f-plane
{{Short description|Approximation in geophysical fluid dynamics}}
{{DISPLAYTITLE:f-plane}}
In geophysical fluid dynamics, the f-plane approximation is an approximation where the Coriolis parameter, denoted f, is set to a constant value.
This approximation is frequently used for the analysis of highly idealized tropical cyclones. Using a constant Coriolis parameter prevents the formation of beta gyres which are largely responsible for the North-westward direction of most tropical cyclones. Rossby waves also depend on variations in f, and do not occur in the f-plane approximation.
In reality, the Coriolis parameter varies in the meridional direction, and so the f-plane approximation is not appropriate when considering flows which span large changes in latitude. The f-plane approximation is also poor near the equator, where variations in f are on the same order of magnitude as f. The beta plane approximation is an improvement on the f-plane approximation which takes leading-order variations in f into account.
References
- {{cite journal |title=A Numerical Study on Tropical Cyclone Intensification. Part I: Beta Effect and Mean Flow Effect |first1=Melinda S. |last1=Peng |first2=Bao-Fong |last2=Jeng |first3=R. T. |last3=Williams |journal=Journal of the Atmospheric Sciences |year=1999 |volume=56 |number=10 |pages=1404–1423|bibcode = 1999JAtS...56.1404P |doi = 10.1175/1520-0469(1999)056<1404:ANSOTC>2.0.CO;2 |doi-access=free }}
- Isaac Held: [http://www.gfdl.noaa.gov/blog/isaac-held/2013/12/31/43-rotating-radiative-convective-equilibrium/ Rotating radiative-convective equilibrium]