u = 1.3 m/s V = -1.3 m/s v = 1.8 m/s u=-1.7 m/s The eddy shown above is located at 54°N. It is 80 km across (in both the x and y directions), and the total water depth is 4 km. (A) The planetary...

u = 1.3 m/s<br>V = -1.3 m/s<br>v = 1.8 m/s<br>u=-1.7 m/s<br>The eddy shown above is located at 54°N. It is 80 km across (in both the x and y directions), and the total water<br>depth is 4 km.<br>(A) The planetary vorticity of this eddy is:<br>(B) The relative vorticity of this eddy is: |<br>s-1.<br>(C) Is this cyclonic or anticyclonic?<br>(D) The potential vorticity for this eddy is:<br>m-ls-1.<br>(E) If the eddy moves south to 31°N and the depth stays constant, what is the potential vorticity at this<br>latitude?<br>m-ls1.<br>(F) What is the relative vorticity?<br>(G) Has the eddy changed speed and/or direction?<br>

Extracted text: u = 1.3 m/s V = -1.3 m/s v = 1.8 m/s u=-1.7 m/s The eddy shown above is located at 54°N. It is 80 km across (in both the x and y directions), and the total water depth is 4 km. (A) The planetary vorticity of this eddy is: (B) The relative vorticity of this eddy is: | s-1. (C) Is this cyclonic or anticyclonic? (D) The potential vorticity for this eddy is: m-ls-1. (E) If the eddy moves south to 31°N and the depth stays constant, what is the potential vorticity at this latitude? m-ls1. (F) What is the relative vorticity? (G) Has the eddy changed speed and/or direction?

Jun 11, 2022

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u = 1.3 m/s V = -1.3 m/s v = 1.8 m/s u=-1.7 m/s The eddy shown above is located at 54°N. It is 80 km across (in both the x and y directions), and the total water depth is 4 km. (A) The planetary...

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