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The Balanced Motion experiment develops three kinds of force balance: hydrostatic balance in the vertical, and geostrophic and cyclostrophic balance in the horizontal. It also introduces the Rossby number as a tool to determine whether geostrophic or cyclostrophic balance dominates in a given system.
Hydrostatic balance relates the pressure at a given surface to the weight of fluid above it.
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p = \rho g (H - z) |
Geostrophic balance is between the Coriolis force and the pressure gradient force, and dominates when centrifugal force is small.
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2 \Omega v_\theta = g \frac{\partial h}{\partial r} |
Cyclostrophic balance is between centrifugal force and the pressure gradient force, and dominates when the Coriolis force is small.
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\frac{v_\theta^2}{r} = g \frac{\partial h}{\partial r} |
Whether geostrophic or cyclostrophic balance is a better approximation is determined by the Rossby number, which is simply the ratio of centrifugal to Coriolis forces in a system.
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R_O = \frac{|V_\theta|}{2 \Omega r} |
Tank Experiment
Two rotating tank experiments were set up. Tank rotation speed was the important parameter varied: one tank rotated at a speed of 1
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