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101 0 $aeng
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181   $ctxt
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183   $acr
200 00$aBiological fluid dynamics $emodeling, computations, and applications : AMS Special Session, Biological Fluid Dynamics : Modeling, Computations, and Applications : October 13, 2012, Tulane University, New Orleans, Louisiana /$fAnita T. Layton, Sarah D. Olson, editors
210  1$aProvidence, Rhode Island :$cAmerican Mathematical Society,$d2014.
210  4$dİ2014
215   $a1 online resource (240 p.)
225 1 $aContemporary Mathematics,$x1098-3627 ;$v628
300   $aDescription based upon print version of record.
311   $a0-8218-9850-7 
320   $aIncludes bibliographical references at the end of each chapters.
327   $a""Cover""; ""Title page""; ""Contents""; ""Preface""; ""Simulating Biofluid-Structure Interactions with an Immersed Boundary Framework a???A Review""; ""1. Introduction""; ""2. Numerical formulations""; ""3. Recent advances""; ""4. Applications""; ""5. Discussion""; ""6. Summary""; ""References""; ""The Development and Advances of  the Immersed Finite Element Method""; ""1. Introduction""; ""2. Kinematics and assumptions""; ""3. The Immersed Finite Element Method""; ""4. Semi-implicit IFEM""; ""5. The Modified IFEM""; ""6. Examples""; ""7. Conclusion""; ""8. Acknowledgement""; ""References""
327   $a""Simulating Mucociliary Transport Using the Method of Regularized Stokeslets""""1. Introduction""; ""2. Methods""; ""3. Results""; ""4. Conclusions""; ""References""; ""A Regularization Method for the Numerical Solution of Doubly-Periodic Stokes Flow""; ""1. Introduction""; ""2. The Stokeslet""; ""3. Greena???s Function for Doubly-Periodic Stokes Flow""; ""4. Regularization Method""; ""5. Results""; ""6. Conclusions and Future Studies""; ""References""; ""Dynamics of a primary cilium in time-periodic flows""; ""1. Introduction""; ""2. Formulation""; ""3. Results""
327   $a""4. Discussion and Conclusion""""Acknowledgments""; ""References""; ""Motion of Filaments with Planar and Helical Bending Waves in a Viscous Fluid""; ""1. Introduction""; ""2. Methods""; ""3. Results""; ""4. Discussion""; ""5. Conclusion""; ""References""; ""Numerical Study of Scaling Effects in Peristalsis and Dynamic Suction Pumping""; ""1. Introduction""; ""2. Methods""; ""3. Results""; ""4. Conclusion""; ""5. Acknowledgements""; ""References""; ""Multi-Bond Models for Platelet Adhesion and Cohesion""; ""1. Introduction""; ""2. Immersed Boundary Method""
327   $a""3. Force required to immobilize platelet""""4. Early platelet-vessel wall adhesion with GPIb-vWF bonds""; ""5. Platelet activation and   _{      }  a??? bonds""; ""6. Discussion""; ""7. Acknowledgements""; ""References""; ""Effects of Grouping Behavior, Pulse Timing, and  Organism Size on Fluid Flow Around the Upside-Down Jellyfish Cassiopea xamachana""; ""1. Introduction""; ""2. Materials and Methods""; ""3. Results""; ""4. Discussion/Conclusions""; ""References""; ""Impacts of Facilitated Urea Transporters on the Urine-Concentrating Mechanism in the Rat Kidney""; ""1. Introduction""
327   $a""2. Model Formulation""""3. Model Results""; ""4. Discussion""; ""References""; ""Feedback-Mediated Dynamics in a Model of   Coupled Nephrons with Compliant Short Loop of Henle""; ""1. Introduction""; ""2. Mathematical Model""; ""3. Characteristic Equation""; ""4. Results""; ""5. Discussion""; ""References""; ""Back Cover""
410  0$aContemporary mathematics (American Mathematical Society) ;$v628.
606   $aHemodynamics$vCongresses
606   $aRheology (Biology)$vCongresses
606   $aBody fluid flow$vCongresses
606   $aFluid dynamics$vCongresses
615  0$aHemodynamics
615  0$aRheology (Biology)
615  0$aBody fluid flow
615  0$aFluid dynamics
676   $a612/.01522
686   $a76M25$a76Z05$a74F10$a35Q92$a92C35$a92B05$a92C05$a92C10$a62P10$2msc
702   $aLayton$b Anita T.$f1973-
702   $aOlson$b Sarah D.$f1981-
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910788256003321
996   $aBiological fluid dynamics$93855175
997   $aUNINA