| 41. | Navier� Stokes equations are useful because they describe the physics of many phenomena of scientific and engineering interest.
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| 42. | For incompressible flow, the continuity equation and Navier� Stokes equations are filtered, yielding the filtered incompressible continuity equation,
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| 43. | Created and redirected to Navier-Stokes equations.
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| 44. | For further study see the articles Fluid dynamics, Fluid mechanics, Navier� Stokes equations ( and their many links.
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| 45. | Stokes'law is derived by solving the Stokes flow limit for small Reynolds numbers of the Navier� Stokes equations.
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| 46. | The full Stokes equations also includes an equation for the conservation of mass, commonly written in the form:
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| 47. | It is believed that turbulent flows can be described well through the use of the Navier� Stokes equations.
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| 48. | The convective portion of the governing equation contains fluid motion terms that are governed by the Navier-Stokes equations.
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| 49. | Solutions of the Navier� Stokes equations for a given physical problem must be sought with the help of calculus.
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| 50. | Examples of nonlinear differential equations are the Navier� Stokes equations in fluid dynamics and the Lotka� Volterra equations in biology.
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