| 1. | Its gradient would be a conservative vector field and is irrotational.
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| 2. | This implies that a potential flow is an irrotational flow.
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| 3. | The fluid in the upper and lower layers are assumed to be irrotational.
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| 4. | This classic fluid mechanics result is " irrotational vortex flow ."
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| 5. | Where the test / weight functions are irrotational.
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| 6. | The vorticity of an irrotational flow is zero.
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| 7. | The flownet is an important tool in analysing two-dimensional irrotational flow problems.
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| 8. | In deriving the Kutta Joukowski theorem, the assumption of irrotational flow was used.
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| 9. | The irrotational everywhere, Bernoulli's equation can be used throughout the flow field.
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| 10. | The flow field associated with the trochoidal wave is not irrotational : it has vorticity.
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