The role of extensional viscosity in frog tongue projection

Alexis Noel; Caroline Wagner; Gareth McKinley; Joe Mendelson; David Hu

The role of extensional viscosity in frog tongue projection

ORAL

Abstract

Frogs and other amphibians capture insects through high-speed tongue projection, some achieving tongue accelerations of over fifty times gravity. In this experimental study, we investigate how a frog's sticky saliva enables high-speed prey capture. At the Atlanta zoo, we used high-speed video to film the trajectory of frog tongues during prey capture. We have also designed and built a portable extensional rheometer; by following the capillary-driven thinning in the diameter of a thread of saliva we characterize the relaxation time and extensional viscosity and so infer the adhesive force between the frog tongue and prey.

Nov. 23, 2014, 4:58 PM – Nov. 23, 2014, 5:11 PM

Authors

Alexis Noel
- Georgia Inst of Tech
Caroline Wagner
- Massachusetts Institute of Technology
- Massachusetts Inst of Tech
Gareth McKinley
- Massachusetts Inst of Tech-MIT
- Massachusetts Institute of Technology
- Department of Mechanical Engineering, Massachusetts Institute of Technology
- Hatsopoulos Microfluidics Laboratory, MIT, Cambridge, MA 02139, United States of America
- MIT
- Massachusetts Inst of Tech
Joe Mendelson
- Georgia Inst of Tech
David Hu
- Georgia Institute of Technology
- Georgia Inst of Tech