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Fluid mechanics for MAP

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Objectives

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This is an introductory course of fluid mechanics. This course is given within the Master Degree Program in Advanced Materials and Processes (MAP) at FAU Erlangen-Nuremberg.

By the end of this course, the students, who has no background in fluid mechanics, are expected

1. To get acquainted with the following fluid flow phenomena.

2. To have theoretical understanding of fluid flow. This will be achieved by giving the the mathematical fundamentals of integral and differential modeling of fluid flows for the conservation laws of mass, momentum and energy.

3. To classify different types of fluid flow phenomena and derive the necessary non-dimensional parameters.

4. To apply fluid mechanics knowledge on real life problems by simplifying the the governing equations for peculiar flows and solving them.

Moreover, students have the chance to see the direct application of the content in the research and development work conducted at the Institute of Fluid Mechanics-Erlangen (LSTM-Erlangen).

Motivation of studying fluid mechanics as a MAP student

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Fluid mechanics is a fundamental subject of many disciplines of engineering and natural sciences. It is involved, for example, in chemical engineering, aerospace engineering, biomedical engineering and, also, in material sciences. As a matter of fact, it is a field where multiple physical effects can be met. Extrusion of polymers, crystal growth, die casting and production of micro and nano structures are example fields related material science, where fluid mechanics plays a very important role. Fluid mechanics knowledge is necessary to understand the nature of flowing medium. This knowledge certainly helps us to develop new materials and processes with which we can feasibly produce these new materials. Furthermore, application of the systematics of fluid mechanics in other research subjects might be beneficial.

Fact check

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1.click the true statement.

Fluid mechanics doesn't have applications in wide range of disciplines
Fluid mechanics have applications in wide range of disciplines
we can't use this knowledge to create new materials
production of micro and nano structures is not an example field related to fluid mechanics application in material science


Basic components of the course

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This course is dominnatly a theoretical one. However, examples are provided in the form of visual media and laboratory experiments. Exercises are made and homeworks are given so that students get acquainted to the theoretical systematic in fluid mechanics. In the last part of the course, relevant examples of research work, which are conducted at LSTM-Erlangen, are provided.

Chapters

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Homework

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Literature

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  • Munson, B.R., Young, D.F., and Okiishi,T.H., Huebsch, W.W., “Fundamentals of Fluid Mechanics”, John Willey and Sons.
  • Fox, R.W. and McDonald, A.T., “Introduction to Fluid Mechanics”, John Willey and Sons.
  • Spurk, J. and Aksel, N., “Strömungslehre: Einführung in die Theorie der Strömungen“, Springer.
  • Spurk, J., “Fluid Mechanics“, Springer.
  • Durst, F., “Grundlagen der Strömungsmechanik: Eine Einführung in die Theorie der Strömung von Fluiden“, Springer.
  • Durst, F., "Fluid Mechanics: An Introduction to the Theory of Fluid Flows", Springer.
  • White, F., “Fluid Mechanics“, McGraw Hill.
  • Pozrikidis, C., "Fluid Dynamics: Theory, Computation and Numerical Simulation", Springer, 2009.
  • Fay james., introduction to fluid mechanics, PHI.