| 1. | Where ? is the kinematic viscosity, equal to ? / ?.
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| 2. | So called kinematic viscosity of high carbon alcohols are high.
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| 3. | Where is the 2D biharmonic operator and is the kinematic viscosity, } }.
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| 4. | With ? the kinematic viscosity of the fluid.
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| 5. | Both CCAI and CII are calculated from the density and kinematic viscosity of the fuel.
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| 6. | Both CII and CCAI are calculated from the density and kinematic viscosity of the fuel.
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| 7. | Where \ nu is the kinematic viscosity, and \ epsilon is the rate of energy dissipation.
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| 8. | The efflux time can also be converted to kinematic viscosities ( centistokes, cSt ) through the conversion equations.
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| 9. | This single equation together with appropriate boundary conditions describes 2D fluid flow, taking only kinematic viscosity as a parameter.
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| 10. | For the momentum balance, kinematic viscosity \ nu can be considered to be the " momentum diffusivity ".
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