Frontiers in Marine Science (Aug 2023)

Low-cost table-top experiments for teaching multi-scale geophysical fluid dynamics

  • Jordyn E. Moscoso,
  • Jordyn E. Moscoso,
  • Jordyn E. Moscoso,
  • Rachel E. Tripoli,
  • Shizhe Chen,
  • Shizhe Chen,
  • William J. Church,
  • William J. Church,
  • Henry Gonzalez,
  • Spencer A. Hill,
  • Spencer A. Hill,
  • Norris Khoo,
  • Taylor L. Lonner,
  • Taylor L. Lonner,
  • Jonathan M. Aurnou

DOI
https://doi.org/10.3389/fmars.2023.1192056
Journal volume & issue
Vol. 10

Abstract

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Multi-scale instabilities are ubiquitous in atmospheric and oceanic flows and are essential topics in teaching geophysical fluid dynamics. Yet these topics are often difficult to teach and counter-intuitive to new learners. In this paper, we introduce our state-of-the-art Do-It Yourself Dynamics (DIYnamics) LEGO® robotics kit that allows users to create table-top models of geophysical flows. Deep ocean convection processes are simulated via three experiments – upright convection, thermal wind flows, and baroclinic instability – in order to demonstrate the robust multi-scale modeling capabilities of our kit. Detailed recipes are provided to allow users to reproduce these experiments. Further, dye-visualization measurements show that the table-top experimental results adequately agree with theory. In sum, our DIYnamics setup provides students and educators with an accessible table-top framework by which to model the multi-scale behaviors, inherent in canonical geophysical flows, such as deep ocean convection.

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