Results 281 to 290 of about 242,440 (314)
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1987
The validity of the Navier-Stokes equations in describing the phenomenon of turbulence in fluids is no longer a topic for serious debate: this is due to the fact that the smallest scales of motion encountered in real fluids (“dissipative” scales) are always several orders of magnitude larger than the molecular scales.
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The validity of the Navier-Stokes equations in describing the phenomenon of turbulence in fluids is no longer a topic for serious debate: this is due to the fact that the smallest scales of motion encountered in real fluids (“dissipative” scales) are always several orders of magnitude larger than the molecular scales.
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Fundamentals of Fluid Dynamics
2014Abstract This chapter starts with a discussion of the continuum hypothesis and the conditions under which it can be used. The origin of the internal forces acting in moving fluids is then identified and the notion of the surface stress and the stress tensor are introduced, as is the rate-of-strain tensor. The constitutive equation, which
Ruban, Anatoly I., Gajjar, Jitesh S. B.
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Incompressible Fluid Dynamics and Introduction to Fluid Dynamics
American Journal of Physics, 1966E. B. McLeod +2 more
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Integrating evolutionary dynamics into cancer therapy
Nature Reviews Clinical Oncology, 2020Robert A Gatenby, Joel S Brown
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The cell biology of mitochondrial membrane dynamics
Nature Reviews Molecular Cell Biology, 2020Marta Giacomello +2 more
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Marine microbial community dynamics and their ecological interpretation
Nature Reviews Microbiology, 2015Jed A Fuhrman +2 more
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