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...dimensionless number in [[magnetohydrodynamics]] that represents the ratio of magnetic forces to the Coriolis force.{{sfnp|Gubbins|Herrero-Bervera|2007| ...etic field]], ρ is the density of the fluid, and Ω is the rate of rotation of the body. ...

{{Short description|Dimensionless parameter in fluid mechanics}} ...ber will be named after Zeldovich.<ref>Clavin, P. (1985). Dynamic behavior of premixed flame fronts in laminar and turbulent flows. Progress in energy an ...

{{Short description|Dimensionless parameter in fluid mechanics}} ...nown as magnetic interaction parameter, is a [[dimensionless number]] of [[fluid]]s, i.e. gases or liquids. It is named after mathematician [[John Trevor St ...

{{Short description|Dimensionless number in fluid dynamics}} ...], the '''Blake number''' is a [[nondimensional number]] showing the ratio of [[inertial force]] to [[Viscosity|viscous force]]. ...

...</ref><ref>Linan, Amable, and Forman Arthur Williams. "Fundamental aspects of combustion." (1993).</ref> It is defined as ...expressed in terms of [[density]],<ref>Clavin, P. (1985). Dynamic behavior of premixed flame fronts in laminar and turbulent flows. Progress in energy an ...

{{Short description|Dimensionless parameter in fluid mechanics}} ...ev.fl.03.010171.000345|doi-access=}}</ref> It is frequently encountered in fluid flows through magnetic fields.<ref>{{cite book|author=Cramer|first=Kenneth ...

{{Short description|Dimensionless number in fluid mechanics}} ...erican]] [[mathematics]] professor [[Jerald Ericksen]] of the [[University of Minnesota]]. The number is defined: ...

{{Short description|Dimensionless parameter in chemistry}} | dimension = [[dimensionless quantity|dimensionless]] ...

{{Short description|Dimensionless number in fluid mechanics}} ...r2=Charalambos C. Baniotopoulos|title=Wind Effects on Buildings and Design of Wind-Sensitive Structures|url=https://books.google.com/books?id=m49tRzY4Va8 ...

...ation of flow.<ref>Jones, Robert T. "Blood Flow," ''Annual Review of Fluid Mechanics'', 1(1969)223:244.</ref> ...are the only two physical parameters necessary to solve an incompressible fluid flow problem. The Reynolds number is given by: ...

{{Short description|Dimensionless parameter in fluid mechanics}} In [[combustion]], the '''Karlovitz number''' is defined as the ratio of chemical time scale <math>t_F</math> to [[Kolmogorov microscales|Kolmogorov ...

{{Short description|Dimensionless number in fluid dynamics}} ...[Henry Darcy]] and is found from nondimensionalizing the differential form of [[Darcy's law]]. This number should not be confused with the [[Darcy frict ...

{{Short description|Dimensionless parameter in fluid mechanics}} ...eral class of [[free boundary problem]]s. and is important in a wide range of engineering and technological applications such as [[evaporator]]s, [[heat ...

{{Short description|Dimensionless quantity used in fluid dynamics}} {{about|the use of ''period number'' in fluid dynamics|the rows in the periodic table|period (periodic table)}} ...

...um has been a subject of intensive studies during the last decades because of its wide applications. ...nsfer rate between a deferentially heated, solid impermeable surface and a fluid-saturated porous medium. Beginning with constant wall temperature.<ref>{{ci ...

...ity]]. It is one of the parameters that defines the degree of unsteadiness of the problem.<ref>{{cite book |last= Leishman |first= Gordon J. |title=Helic ...equency can be used to explain the amplitude attenuation and the phase lag of the unsteady aerodynamic forces compared to the quasi steady analysis (whic ...

{{Short description|Dimensionless parameter in fluid mechanics}} ...lled later Shields parameter. The Shields parameter is the main parameter of the [[Shields formula]]. The Shields parameter is given by: ...

...less number indicating the nonlinearity of long surface gravity waves on a fluid layer.}} ...The long-wave paradox in the theory of gravity waves | journal=Proceedings of the Cambridge Philosophical Society | pages=685–694 | issue=4 | volume=49 | ...

{{AFC comment|1=Hello. Is this being submitted as part of a university course? [[User:Curb Safe Charmer|Curb Safe Charmer]] ([[User t ...oriolis force|Coriolis]], and [[centrifugal force]]s) interact in rotating fluid systems, such as [[ocean current]]s, [[atmospheric circulation]]s, and rota ...

{{Short description|Scale Analysis of Air and Water Interaction in Urban Drainage Systems}} = '''Scale Analysis of Air and Water Interaction in Urban Drainage Systems''' = ...