| 1. | Incompressible flow does not imply that the fluid itself is incompressible.
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| 2. | For incompressible flow, the divergence of the volume flux is zero.
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| 3. | For steady incompressible flow with constant viscosity and density, these read:
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| 4. | With this simplification, Bernoulli� s equation for incompressible flows can be expressed as
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| 5. | In fact, thermodynamics is typical of compressible flows and degenerates in incompressible flows.
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| 6. | In 1726, Euler equations which could be applied to both compressible and incompressible flows.
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| 7. | Motion blurring might be reduced using a new technique called IFT ( incompressible flow tomography ).
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| 8. | This is why mathematically all Newtonian, incompressible flows with the same Reynolds number are comparable.
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| 9. | Dynamic viscosity need not be constant � in incompressible flows it can depend on density and on pressure.
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| 10. | Incompressible flow implies that the density remains constant within a parcel of fluid that moves with the flow velocity.
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