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convert wind direction in true North to Math convention

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wave_buoys
wave_buoys el 16 de Feb. de 2018
Respondida: Mayra el 9 de Jul. de 2019
Hi all,
I am very confused about how to convert wind direction in true North to math convention (Trigonometric style). Could anyone offer some help?
Thanks
  1 comentario
Geoff Hayes
Geoff Hayes el 16 de Feb. de 2018
tanq - do you have any examples or can you provide some context? If the wind is coming from the north (0 degrees), is the "math convention" just
0 + 180 = 180 degrees
and then you convert that into radians? I'm assuming that the compass is like
N
^
|
W < - - > E
|
S
And so a wind coming from the north has a direction towards the south i.e. 180 degrees along the y-axis. Likewise, a wind from the west is blowing to the east and so its direction would be
270 + 180 = 450 = 90 degrees
I suppose that given this angle you may want to determine the x- and y-components. Since the angle is relative to true north, then for wind coming from the north with speed ws
theta = 180 (degrees)
x = ws * sind(theta)
y = ws * cosd(theta)
Or the above is wrong and isn't what you are looking for...

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Jim Riggs
Jim Riggs el 16 de Feb. de 2018
Editada: Jim Riggs el 16 de Feb. de 2018
Working with wind direction vectors can be confusing, because there are two different conventions which are both widely used.
Meteorologists tend to describe the wind direction as the direction "from" which the wind is coming. i.e. the direction you would be facing with the wind hitting you directly in the face.
But many engineers prefer to use a wind vector defined by the direction "toward" which the wind is going. This is the direction you would be facing with the wind hitting you in the back of your head.
As you can see, these two "directions" are opposite even though they are describing the same vector. So the first step is to determine whether you are using the "from" convention or the "toward" convention.
(If you have data from a meteorological source, the wind direction is probably "direction from") The rest is simple - just draw a picture of the problem.
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Image Analyst
Image Analyst el 17 de Feb. de 2018
Or you could use mod() or rem(). Or use sind() and cosd() if you want to do operations on angles in degrees.
However I still don't know what, given an angle in degrees, "convert wind direction in true North to math convention" means. What is "math convention"??? You've got degrees, so what do you want? I still have no idea.
wave_buoys
wave_buoys el 17 de Feb. de 2018
great thanks all for your contributions. I sorted out

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Más respuestas (2)

Mayra
Mayra el 9 de Jul. de 2019
I have been struggling with the same problem and I found an easy way to deal with this.
First you should convert your original data (direction with true north, i.e. clockwise and 0° at the top and wind intensity, I will call Direction and Wind) to cartesian coordinates.
[u,v] = pol2cart(deg2rad(Direction),Wind);
Then you convert it againd to polar coordinates but swaping u and v
[theta,rho]=cart2pol(v,u);
Now theta is the wind direction in polar coordinates, i.e. counterclockwise and 0° at right.
wave_buoys
wave_buoys el 17 de Feb. de 2018
Editada: wave_buoys el 17 de Feb. de 2018
Sorry. Here is my data from meteorological source. I want to convert it into engineering style. How could I do in Matlab?
Thanks
  1 comentario
Image Analyst
Image Analyst el 17 de Feb. de 2018
OK, what about it? What do you want to do with it? I have no idea.

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