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This book is devoted to the teaching and learning of fluid mechanics. Fluid mechanics occupies a privileged position in the sciences; it is taught in various science departments including physics, mathematics, mechanical, chemical and civil engineering and environmental sciences, each highlighting a different aspect or interpretation of the foundation and applications of fluids. While scholarship in fluid mechanics is vast, expanding into the areas of experimental, theoretical and computational fluid mechanics, there is little discussion among scientists about the different possible ways of teaching this subject. We think there is much to be learned, for teachers and students alike, from an interdisciplinary dialogue about fluids. This volume therefore highlights articles which have bearing on the pedagogical aspects of fluid mechanics at the undergraduate and graduate level.

Technology: general issues --- fluid dynamics education --- damped pendulums --- fluid drag --- fluid-structure interaction --- computational fluid dynamics --- outcomes competences --- hydraulic engineering --- hydraulic teaching --- active methodology --- droplet impact --- undergraduate education --- applications of fluids --- vortex formation length --- wake --- vortex shedding --- practical engineering education --- fluid mechanics --- learning and teaching --- laboratories --- data assimilation --- variational and sequential methods --- Kalman filtering --- forward sensitivity --- measurements fusion --- reduced order models --- quasi-geostrophic equations --- closure models --- Navier-Stokes equations --- Leray-Hopf weak solutions --- existence --- inquiry-based instruction --- science education --- teaching-learning sequences --- didactic transformation --- primary level --- CFD --- Julia --- Blasius --- Hiemenz --- Homann --- Falkner–Skan --- boundary-layer --- open water tank --- education --- n/a --- Falkner-Skan

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

This book is devoted to the teaching and learning of fluid mechanics. Fluid mechanics occupies a privileged position in the sciences; it is taught in various science departments including physics, mathematics, mechanical, chemical and civil engineering and environmental sciences, each highlighting a different aspect or interpretation of the foundation and applications of fluids. While scholarship in fluid mechanics is vast, expanding into the areas of experimental, theoretical and computational fluid mechanics, there is little discussion among scientists about the different possible ways of teaching this subject. We think there is much to be learned, for teachers and students alike, from an interdisciplinary dialogue about fluids. This volume therefore highlights articles which have bearing on the pedagogical aspects of fluid mechanics at the undergraduate and graduate level.

Technology: general issues --- fluid dynamics education --- damped pendulums --- fluid drag --- fluid-structure interaction --- computational fluid dynamics --- outcomes competences --- hydraulic engineering --- hydraulic teaching --- active methodology --- droplet impact --- undergraduate education --- applications of fluids --- vortex formation length --- wake --- vortex shedding --- practical engineering education --- fluid mechanics --- learning and teaching --- laboratories --- data assimilation --- variational and sequential methods --- Kalman filtering --- forward sensitivity --- measurements fusion --- reduced order models --- quasi-geostrophic equations --- closure models --- Navier-Stokes equations --- Leray-Hopf weak solutions --- existence --- inquiry-based instruction --- science education --- teaching-learning sequences --- didactic transformation --- primary level --- CFD --- Julia --- Blasius --- Hiemenz --- Homann --- Falkner-Skan --- boundary-layer --- open water tank --- education --- fluid dynamics education --- damped pendulums --- fluid drag --- fluid-structure interaction --- computational fluid dynamics --- outcomes competences --- hydraulic engineering --- hydraulic teaching --- active methodology --- droplet impact --- undergraduate education --- applications of fluids --- vortex formation length --- wake --- vortex shedding --- practical engineering education --- fluid mechanics --- learning and teaching --- laboratories --- data assimilation --- variational and sequential methods --- Kalman filtering --- forward sensitivity --- measurements fusion --- reduced order models --- quasi-geostrophic equations --- closure models --- Navier-Stokes equations --- Leray-Hopf weak solutions --- existence --- inquiry-based instruction --- science education --- teaching-learning sequences --- didactic transformation --- primary level --- CFD --- Julia --- Blasius --- Hiemenz --- Homann --- Falkner-Skan --- boundary-layer --- open water tank --- education