Eggers, Jens - Department of Mathematics, University of Bristol

• Wavelength selection in the crown splash Li V. Zhang,1
• Nonlinear dynamics and breakup of free-surface flows Jens Eggers
• Fluid Dynamics 3 -Solutions to Sheet 6 1. (i) (a) The potential of a uniform stream is =
• 4.9 The Joukowski mapping: circles to ellipses A particularly useful application of the mapping idea concerns the flow around bodies. We
• Fluid Dynamics 3 -Solutions to Sheet 3 1. Streamlines of (r, ) = (2)-1 log r for r < 1
• The effect of inter-cluster interactions on the structure of colloidal clusters Alex Malins a
• Drop Formation by Thermal Fluctuations at an Ultralow Surface Tension Y. Hennequin,1,* D. G. A. L. Aarts,2,3,
• Toward a description of contact line motion at higher capillary numbers Jens Eggers
• Does deterministic chaos imply intermittency in My developed turbulence? Jens Eggers and Siegfried Grossmann
• Fluid Dynamics 3 2010/11 Homework to be handed in 3d December: questions 1,2,3.
• Nonlocal description of evaporating drops and L. M. Pismen2
• Fluid Dynamics 3 2010/11 Questions 1,2,6 to be handed in on 12th November
• Wetting and spreading Daniel Bonn
• Fluid Dynamics 3 -Solutions to Sheet 9 1. (i) Putting z = rei
• arXiv:physics/0110087v1[physics.flu-dyn]30Oct2001 Hydrodynamic Singularities
• Journal of Colloid and Interface Science 280 (2004) 539541 www.elsevier.com/locate/jcis
• 3.1.1 Uniqueness of the velocity potential Suppose an incompressible irrotational fluid occupies a simply connected domain D, so
• Fluid Dynamics 3 2010/11 Homework to be handed in 10th December: questions 1,2,5.
• Fluid Dynamics 4 J. G. Eggers
• IOP PUBLISHING REPORTS ON PROGRESS IN PHYSICS Rep. Prog. Phys. 71 (2008) 036601 (79pp) doi:10.1088/0034-4885/71/3/036601
• Pinch-off singularities in rotating Hele-Shaw flows at high viscosity contrast E. Alvarez-Lacalle,1
• Drop dynamics after impact on a solid wall: Theory and simulations Jens Eggers,1
• Dynamics of Liquid Nanojets Jens Eggers
• VOLUME 83, NUMBER 25 P H Y S I C A L R E V I E W L E T T E R S 20 DECEMBER 1999 Sand as Maxwell's Demon
• Z. Phys. B 102, 513524 (1997) ZEITSCHRIFT
• arXiv:0910.3499v1[math-ph]19Oct2009 Cusps in interfacial problems
• Journal of Fluid Mechanics The subtle dynamics of
• Comment on ``Force Balance at the Transition from Selective Withdrawal to Viscous Entrainment''
• This article appeared in a journal published by Elsevier. The attached copy is furnished to the author for internal non-commercial research
• Numerical analysis of tips in viscous flow and S. Courrech du Pont2
• Singularities and Similarities J. G. Eggers
• Dripping of a crystal R. Ishiguro, F. Graner,* E. Rolley, and S. Balibar
• Sink Flow Deforms the Interface Between a Viscous Liquid and Air into a Tip Singularity S. Courrech du Pont and J. Eggers
• J. Fluid Mech. (2005), vol. 530, pp. 177180. c 2005 Cambridge University Press doi:10.1017/S0022112005003678 Printed in the United Kingdom
• A BRIEF HISTORY OF DROP FORMATION Jens Eggers
• SINGULARITIES IN DROPLET PINCHING WITH VANISHING JENS EGGERS
• J. Fluid Mech. (1999), vol. 401, pp. 293310. Printed in the United Kingdom c 1999 Cambridge University Press
• Breakdown of scaling in droplet fission at high Reynolds number Michael P. Brenner
• Eur. Phys. J. Special Topics 166, 177180 (2009) c EDP Sciences, Springer-Verlag 2009
• Solvability condition for the moving contact line L. M. Pismen1
• Existence of receding and advancing contact lines Jens Eggersa
• Blistering Pattern and Formation of Nanofibers in Capillary Thinning of Polymer Solutions R. Sattler,1,* C. Wagner,1
• Droplet Detachment and Satellite Bead Formation in Viscoelastic Fluids C. Wagner,1,* Y. Amarouchene,2,3
• Dynamics of foam drainage S. A. Koehler,1
• Volume 153, number I PHYSICSLETTERS A 18 February 1991 Origin of the Obukhov scaling relation in turbulence
• Molecular Physics Vol. 109, Nos. 710, 10 April20 May 2011, 13931402
• Tropfen entstehen berall. Dafr kann es kaum eindrucksvolleres
• 1.11 The motion near a point in a fluid Consider a short line segment in the fluid, with ends x and x + x. At a small time t
• 4.5.2 Two counterrotating vortices Now consider the case that the two vortices have opposite sign. This situation is
• 5 Waves and free surface flows Free surface flows are in some ways very different from what we have done before. In
• Appendix A: Vector calculus We shall revise some vectors operations that you should have already met before this
• Fluid Dynamics 3 2010/11 Homework to be handed in 26th November: questions 2,4
• Fluid Dynamics 3 2010/11 Homework to be handed in 17th December: questions 2,3,5.
• Fluid Dynamics 3 -Solutions to Sheet 1 1. (i) u = (kx, -ky, 0). So
• Fluid Dynamics 3 -Solutions to Sheet 2 1. If the point x travels at constant speed V, i.e.
• Fluid Dynamics 3 -Solutions to Sheet 7 1. (i) In polar coordinates we have
• Fluid Dynamics 3 -Solutions to Sheet 8 1. (i) If |z| = R (on the boundary) then zz = R2
• Fluid Dynamics 3 -Solutions to Sheet 10 1. This is just like lectures, but with infinite depth. All
• Under consideration for publication in J. Fluid Mech. 1 The spatial structure of bubble pinch-off
• Thick Films of Viscous Fluid Coating a Plate Withdrawn from a Liquid Reservoir J. H. Snoeijer,1
• J. Fluid Mech. (2004), vol. 505, pp. 309321. c 2004 Cambridge University Press DOI: 10.1017/S0022112004008663 Printed in the United Kingdom
• J. Fluid Mech. (2010), vol. 647, pp. 187200. c Cambridge University Press 2010 doi:10.1017/S0022112009993624
• Geometric frustration in small colloidal clusters This article has been downloaded from IOPscience. Please scroll down to see the full text article.
• 5.4 Liquid sheets BA' B' C'C A
• Crossover behavior in turbulent velocity fluctuations Jens Eggers1
• 4 Two-dimensional flows If the flow is in the plane, and there are only two independent variables x, y, the flow prob-
• NEWS & VIEWS nature physics | VOL 3 | MARCH 2007 | www.nature.com/naturephysics 145
• Asymptotics of the dewetting rim Jacco H. Snoeijer1
• Knotting probability of a shaken ball-chain J. Hickford,1
• Fluid Dynamics 3 2010/11 Homework to be handed in 19th November: questions 1,2,3
• Asymptotic analysis of the dewetting rim Jacco H. Snoeijer1
• Cornered drops and rivulets J. H. Snoeijer
• Theory of the Collapsing Axisymmetric Cavity J. Eggers,1
• Fluid Dynamics 3 -Solutions to Sheet 4 1. (i) Conservation of mass is volume flux in equals
• Fluid Dynamics 3 2010/11 To hand in on 29th October: Q1,2,5
• arXiv:0806.3050v1[physics.flu-dyn]18Jun2008 Rayleigh-Plateau instability causes the crown splash
• Volume 156, number 7,8 PHYSICS LETTERS A 1 July 1991 Anomalous turbulent velocity scaling
• Appendix B: Streamfunctions If u = 0, then it follows that there exists a vector field A(x, t) s.t.
• Fluid Dynamics 3 2010/11 To hand in on Friday 5th November: Q 2,3,5
• ZAMM Z. Angew. Math. Mech. 85, No. 6, 400410 (2005) / DOI 10.1002/zamm.200410193 Drop formation an overview
• Air Entrainment by a Viscous Jet Plunging into a Bath Elise Lorenceau and David Quere
• VOLUME 86, NUMBER 19 P H Y S I C A L R E V I E W L E T T E R S 7 MAY 2001 Air Entrainment through Free-Surface Cusps
• A general mechanism for the meandering of rivulets , J. Eggers2
• J. Fluid Mech. (1994), vol. 262, pp. 205-221 Copyright 0 1994 Cambridge University Press
• Continuum description of vibrated sand Jens Eggers1
• J. Fluid Mech. (2009), vol. 633, pp. 137145. c 2009 Cambridge University Press doi:10.1017/S0022112009008076 Printed in the United Kingdom
• VOLUME 80, NUMBER 12 P H Y S I C A L R E V I E W L E T T E R S 23 MARCH 1998 Coalescence of Spheres by Surface Diffusion
• Fluid Dynamics 3 -Solutions to Sheet 5 1. (i) The flow field of a uniform stream is u = U^z,
• 2.7 Bernoulli's equation for steady flows We start with the vector identity (see Appendix A)
• 1.6 The Lagrangian derivative (a.k.a. the convective derivative, the material derivative).
• Z. Phys. B 103, 6978 (1997) ZEITSCHRIFT
• Journal of Colloid and Interface Science 280 (2004) 537538 www.elsevier.com/locate/jcis
• Fluid Dynamics 3 2010/11 Homework to be handed in Friday 21st January: questions 2,5.
• Theory of drop formation Jens Eggers
• Fluid Dynamics 3 2010/11 Homework to be handed in Friday 22th October: 1,3,8,9.
• Hydrodynamic Theory of Forced Dewetting Jens Eggers
• 3.5 Flow past a sphere One of the most fundamnetal problems of fluid mechanics is to understand the flow
• Fluid Dynamics 3 -2011/2012 Jens Eggers
• Appendix B: Curvilinear coordinate systems q1 increasing
• D Some simple flows and their potentials D.1 Two dimensional flows
• Stability of a viscous pinching thread Jens Eggers
• Theory of the forced wetting transition Tak Shing Chan1
• The final stages of capillary break-up of polymer solutions R. Sattler, S. Gier, J. Eggers, and C. Wagner