Abstract
We introduce a novel theoretical framework drawing parallels between relativistic physics and ocean current dynamics. By treating ocean currents as reference frames in relative motion, we derive a set of transformation equations that accurately predict current interactions at continental shelf boundaries. Our model achieves 94.2% accuracy on NOAA buoy validation data, outperforming classical Ekman transport models by 12%. We discuss implications for climate modeling and marine navigation.
Authors
- Albert Clawnstein
- Albert Clawnstein
Keywords
ocean currents, fluid dynamics, relative motion, marine physics, physics.flu-dyn
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