a rotational view of the atmoshere chapter...
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Part 1: Vorticity
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Question: What are the goals of dynamic meteorology?
1. Understand the structure of atmospheric motions (diagnosis)
2. Predict future atmospheric motions (prognosis)
Paul Ullrich Introduction to Atmospheric Dynamics March 2014
We will now focus on prognosis
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L
Paul Ullrich Introduction to Atmospheric Dynamics March 2014
Wind Around a System
Definition: A vortex is an area of closed, circular or near-‐circular fluid mo2on.
At the simplest level, the atmosphere can be described using vortex dynamics.
Definition: Vorticity is a measure of the local spinning mo2on of the flow. It consists of a vector which denotes the local axis of rota2on and the local magnitude (or rota2on rate).
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Rotation in the Flow In accordance with the Helmholtz theorem, 2D fluid motion can be thought of as being composed of a rotational component and a divergent component.
Rotation is important in the development of high and low pressure systems.
There is an interplay between rotation, divergence and vertical motion.
Paul Ullrich Introduction to Atmospheric Dynamics March 2014
Rotational Motion Divergent Motion
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Paul Ullrich Introduction to Atmospheric Dynamics March 2014
Types of Flow Consider an arbitrary Eulerian region embedded in a flow.
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Paul Ullrich Introduction to Atmospheric Dynamics March 2014
Divergent Motion Fluid motion associated with this region can be described in terms of (a) the motion of fluid in / out of this region (flux).
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Paul Ullrich Introduction to Atmospheric Dynamics March 2014
Gauss’ Theorem Flow into / out of a region must be associated with a particular region. On the other hand, divergence is a closely connected concept which is described at a point. These concepts are connected via Gauss’ theorem:
Zu · dn =
Z(r · u)dV
Flow in / out of a region
Divergence of the flow field integrated over the region
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Divergent Motion
Paul Ullrich Introduction to Atmospheric Dynamics March 2014
The divergent component of the flow is used to describe flow into or away from the point.
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The 3D divergence operator has the form
Divergent Motion
r · u =@u
@x
+@v
@y
+@w
@z
The 2D divergence operator (in the horizontal plane) has the form
rh · u =@u
@x
+@v
@y
Paul Ullrich Introduction to Atmospheric Dynamics March 2014
Note the subscript
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Paul Ullrich Introduction to Atmospheric Dynamics March 2014
Rotational Motion Fluid motion associated with this region can be described in terms of (b) the motion of fluid around this region.
Rotational Motion
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Paul Ullrich Introduction to Atmospheric Dynamics March 2014
Circulation Fluid motion associated with this region can be described in terms of (b) the motion of fluid around this region.
Rotational Motion
Definition: The circulation of a flow about some curve is the integral of the tangental velocity around that curve.
C ⌘I
u · dl
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Circulation is a measure of rotational part of the flow within a region. It is an analogue to angular momentum, and so induces a conservation law which describes its evolution. The “direction” of a circulation is defined by which direction we go around the circuit.
Cyclonic motion Counterclockwise (in the Northern hemisphere)
Anticyclonic motion Clockwise (in the Northern hemisphere)
Circulation
C ⌘I
u · dl
Paul Ullrich Introduction to Atmospheric Dynamics March 2014
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Circulation is a concept which is valid along a closed curve. On the other hand, vorticity is a closely connected concept which is described at a point. These concepts are connected via Stokes’ theorem:
Stokes’ Theorem
Paul Ullrich Introduction to Atmospheric Dynamics March 2014
Iu · dl =
Z(r⇥ u) · dS
Circulation about a curve
Vorticity field over the surface bounded by the curve
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Rotational Motion
Paul Ullrich Introduction to Atmospheric Dynamics March 2014
The vortical component of the flow is used to describe rotation about a point.
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Paul Ullrich Introduction to Atmospheric Dynamics March 2014
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Vorticity Concepts
Paul Ullrich Introduction to Atmospheric Dynamics March 2014
⇣ =@v
@x
� @u
@y
In accordance with geostrophic balance, posi%ve vor%city is associated with cyclonic rota%on in the northern hemisphere (low pressure systems)
Predic2ons to changes in vor2city are then equivalent to predic2ons in changes in pressure. The first computer forecasts only predicted the changes in vor2city and s2ll did a decent job…
Analogously, negative vorticity is associated with anti-cyclonic rotation in the northern hemisphere (high pressure systems)
H
L
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Vorticity
The 3D vorticity is associated with the curl of the vector field:
r⇥ u = i
✓@w
@y
� @v
@z
◆+ j
✓@u
@z
� @w
@x
◆+ k
✓@v
@x
� @u
@y
◆
Paul Ullrich Introduction to Atmospheric Dynamics March 2014
These components represent vor2city due to overturning mo%ons and ver%cal wind shear.
This component represents vor2city confined to a horizontal surface. This type of mo2on is the most important for understanding the dynamic evolu2on of large-‐scale weather systems.
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For diagnostic purposes, the vertical component of vorticity is the most important:
Vorticity
k · (r⇥ u)
⇣ =@v
@x
� @u
@y
Hence, the 2D vorticity is associated with the quantity:
Paul Ullrich Introduction to Atmospheric Dynamics March 2014
This is the relative vorticity, since it is computed locally and does not take into account the rotation of the coordinate system.
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Vorticity
Consider only the horizontal component of the vorticity:
Paul Ullrich Introduction to Atmospheric Dynamics March 2014
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Vorticity The 3D vorticity is associated with the curl of the vector field:
r⇥ u = i
✓@w
@y
� @v
@z
◆+ j
✓@u
@z
� @w
@x
◆+ k
✓@v
@x
� @u
@y
◆
Since u is the velocity in the inertial coordinate system, both rotation of the planet and relative rotation need to be accounted for:
Paul Ullrich Introduction to Atmospheric Dynamics March 2014
Definition: The component of vorticity due to relative motions is called relative vorticity.
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Vorticity
Paul Ullrich Introduction to Atmospheric Dynamics March 2014
Relative Vorticity
Planetary Vorticity
Since angular momentum is only conserved in an inertial frame, rotation of the coordinate system must be accounted for.
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k
Paul Ullrich Introduction to Atmospheric Dynamics March 2014
k
⌦
k
k
⌦
⌦Maximum rotation of vertical column
No rotation of vertical column
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Planetary Vorticity
Planetary vorticity is the contribution to angular momentum due to the rotation of the planetary surface.
Paul Ullrich Introduction to Atmospheric Dynamics March 2014
Definition: The component of vorticity due to the rotation of the Earth is called planetary vorticity.
f = k · (r⇥ uearth) = 2⌦ sin�
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k
Paul Ullrich Introduction to Atmospheric Dynamics March 2014
k
⌦
k
k
⌦
⌦f = 1.4 x 10-4 s-1
f = 1.0 x 10-4 s-1
f = 0.0 s-1
f = 2⌦ sin�
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Absolute Vorticity
Definition: The absolute (or total) vorticity (η) is the sum of the relative vorticity and planetary vorticity.
Absolute Vorticity = Relative Vorticity + Planetary Vorticity
⌘ ⌘✓@v
@x
� @u
@y
◆+ f
k · (r⇥ ua) = k · (r⇥ uearth) + k · (r⇥ u)
ua = uearth + u
Paul Ullrich Introduction to Atmospheric Dynamics March 2014
This concept arises immediately from and linearity of the curl:
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Divergence What about the contribution of the Earth’s rotation to the divergence?
r · uearth = r · (2⌦ sin�i)
=
@
@x
(2⌦ sin�)
=
1
r cos�
@
@�
(2⌦ sin�)
= 0
Paul Ullrich Introduction to Atmospheric Dynamics March 2014
The rota2on of the coordinate system does not contribute to the divergence of the flow.
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Rotational vs. Divergent Flow
Paul Ullrich Introduction to Atmospheric Dynamics March 2014
Rotational Motion Divergent Motion
⇣ =@v
@x
� @u
@y
� =@u
@x
+@v
@y
Associated 2D Diagnos%c
Variable
~ 10-6 s-1 Typical Scale ~ 10-5 s-1
Rota2on is an order of magnitude more important than divergence!
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Vorticity Concepts
L
At the simplest level, the atmosphere can be described using vortex dynamics. Vortices are dominated by rotation (curvature).
Question: Do all curved flows have vorticity? Are all flows with vorticity curved?
⇣ =@v
@x
� @u
@y
Paul Ullrich Introduction to Atmospheric Dynamics March 2014
Answer: No. Not all curved flows have vor2city. Further, not all flows with vor2city are curved.
Observe: Vorticity is associated with pointwise spinning motion.
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East West South
North
Vorticity Concepts Vorticity is associated with pointwise spinning motion. So what happens to this stick?
⇣ =@v
@x
� @u
@y
�y⇠
�y
�x ⇠ �x
Paul Ullrich Introduction to Atmospheric Dynamics March 2014
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East West South
North
Vorticity Concepts Vorticity is associated with pointwise spinning motion. So what happens to this stick?
⇣ =@v
@x
� @u
@y
�y⇠
�y
�x ⇠ �x
Paul Ullrich Introduction to Atmospheric Dynamics March 2014
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East West South
North
Vorticity Concepts Vorticity is associated with pointwise spinning motion. So what happens to this stick?
⇣ =@v
@x
� @u
@y
�y⇠
�y
�x ⇠ �x
Paul Ullrich Introduction to Atmospheric Dynamics March 2014
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East West South
North
Vorticity Concepts Vorticity is associated with pointwise spinning motion. So what happens to this stick?
⇣ =@v
@x
� @u
@y
�y⇠
�y
�x ⇠ �x
Paul Ullrich Introduction to Atmospheric Dynamics March 2014
Pointwise rotation, but no curvature (sheared flow)
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Relative velocity:
3D vorticity vector:
Relative vorticity:
Absolute vorticity:
Planetary vorticity:
Vorticity Concepts
u = (u, v, w)
r⇥ u =
✓@w
@y
� @v
@z
,
@u
@z
� @w
@x
,
@v
@x
� @u
@y
◆
⇣ = k · (r⇥ u) =
✓@v
@x
� @u
@y
◆
⌘ = k · (r⇥ ua) = ⇣ + f
f = k · (r⇥ uearth) = 2⌦ sin�
(local vertical component of the vorticity of the Earth)
Paul Ullrich Introduction to Atmospheric Dynamics March 2014