Stability of Floating Objects at a Two-Fluid Interface
ORAL
Abstract
We explore the stability of floating objects at a two fluid interface
through mathematical modeling and experimentation. Our models are based
on standard ideas of center of gravity, center of buoyancy, and
Archimedes’ Principle extended to the notion of a two fluid scenario. We
investigate floating shapes with two-dimensional constant cross sections
and identify a potential energy landscape that helps identify stable and unstable
floating orientations. We compare our analyses and computations to experiments
on floating objects designed and created through 3D printing.
through mathematical modeling and experimentation. Our models are based
on standard ideas of center of gravity, center of buoyancy, and
Archimedes’ Principle extended to the notion of a two fluid scenario. We
investigate floating shapes with two-dimensional constant cross sections
and identify a potential energy landscape that helps identify stable and unstable
floating orientations. We compare our analyses and computations to experiments
on floating objects designed and created through 3D printing.
–
Presenters
-
Mark W Brant
George Mason University
Authors
-
Mark W Brant
George Mason University
-
Daniel M Anderson
George Mason University
-
Evelyn Sander
George Mason University
-
Patrick Bishop
George Mason University
-
Gabriela Casteneda Guzman
George Mason University
-
Gina Thomas
George Mason University