| 1. | In practice, an inviscid flow is an laminar boundary layer.
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| 2. | The approximations to these problems are called inviscid flows.
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| 3. | Helmholtz� s theorems apply to inviscid flows.
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| 4. | These approximations are called inviscid flows.
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| 5. | The relationship described by Bernoulli was found to be valid only for incompressible, inviscid flow.
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| 6. | These are governed by the Orr� Sommerfeld equation for Rayleigh's equation for inviscid flow.
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| 7. | Kelvin's circulation theorem states that a fluid that is irrotational in an inviscid flow will remain irrotational.
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| 8. | In high Reynolds number flows, the flow is often modeled as an inviscid flow, an approximation in which viscosity is completely neglected.
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| 9. | Inviscid flow is governed by the Euler equations for which there are many simple solution methods depending on what specific assumptions can be made.
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| 10. | In this case, the inviscid flow around an airfoil can be approximated by a potential flow satisfying the no-penetration boundary condition.
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