tag:blogger.com,1999:blog-9045240617730855574.post5837868510905905450..comments2023-08-11T04:03:10.057-07:00Comments on long time ago...: Computing wind average in an area using rWindJavier Fernández-Lópezhttp://www.blogger.com/profile/04195699007682768268noreply@blogger.comBlogger2125tag:blogger.com,1999:blog-9045240617730855574.post-69838220489394128372018-05-17T07:11:40.010-07:002018-05-17T07:11:40.010-07:00Hi Le!
Well, not exactly.
With wind.dl you obt...Hi Le!<br /><br /> Well, not exactly.<br /><br /> With wind.dl you obtain wind parameters in a vectorial way (the formal way to express wind values) in two components (vectors) U and V. With wind.fit function, you transform this U and V components through trigonometry into wind direction and wind speed. This direction and speed means "where the wind is blowing to".<br /><br /> Don't know if this is enough for your question... here there are some documentation about this kind of transformations:<br /><br />http://colaweb.gmu.edu/dev/clim301/lectures/wind/wind-uv<br /><br />http://tornado.sfsu.edu/geosciences/classes/m430/Wind/WindDirection.html<br /><br /> CheersAnonymoushttps://www.blogger.com/profile/09458027726493822434noreply@blogger.comtag:blogger.com,1999:blog-9045240617730855574.post-84291603847746174352018-05-17T04:15:00.097-07:002018-05-17T04:15:00.097-07:00Hi,
am I correct that wind.fit converts the origi...Hi,<br /><br />am I correct that wind.fit converts the original wind direction (where wind is coming from) to where wind is blowing to, i.e. adding 180 degrees?<br /><br />Cheers,<br /><br />LeAnonymoushttps://www.blogger.com/profile/11727776096682783158noreply@blogger.com