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Query: journal id: "physicalxreviewxletters"

AuthorsA. Javadi, J. Eggers, D. Bonn, M. Habibi, N.M. Ribe
TitleDelayed Capillary Breakup of Falling Viscous Jets
JournalPhysical Review Letters
Volume110
Year2013
Issue14
Pages144501-
ISSN00319007
FacultyFaculty of Science
Institute/dept.FNWI: Van der Waals-Zeeman Institute (WZI)
AbstractThin jets of viscous fluid like honey falling from capillary nozzles can attain lengths exceeding 10 m before breaking up into droplets via the Rayleigh-Plateau (surface tension) instability. Using a combination of laboratory experiments and WKB analysis of the growth of shape perturbations on a jet being stretched by gravity, we determine how the jet’s intact length lb depends on the flow rate Q, the viscosity η, and the surface tension coefficient γ. In the asymptotic limit of a high-viscosity jet, lb∼(gQ2η4/γ4)1/3, where g is the gravitational acceleration. The agreement between theory and experiment is good, except for very long jets.
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