| 1. | The right-hand side of this equation is treated as an inertial force.
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| 2. | Reynolds number is the ratio of inertial forces to viscous forces.
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| 3. | The lateral displacements can be caused by wind or seismically induced inertial forces.
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| 4. | As the speed increases, the inertial forces become comparable with the adhesion forces.
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| 5. | These additional forces are termed inertial forces, fictitious forces or " pseudo forces ".
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| 6. | High Reynolds numbers indicate that the inertial forces are more important than the viscous forces.
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| 7. | Of course, there is always a certain inertial force in favor of staying with old parts.
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| 8. | Would one get squashed by inertial forces?
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| 9. | Unfortunately, this usage of " inertial force " conflicts with the Newtonian idea of an inertial force.
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| 10. | In such cases, inertial forces are sometimes neglected; this flow regime is called Stokes or creeping flow.
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