irrotational Sentence Examples
- The flow of the fluid was irrotational, meaning it lacked any curl or rotation.
- The behavior of the irrotational fluid was characterized by its smooth and steady movement, without the formation of eddies or whirlpools.
- In the irrotational flow, fluid particles followed smooth and parallel paths, exhibiting a lack of rotational motion.
- The irrotational nature of the flow ensured that the fluid's velocity field exhibited a conservative behavior, with no energy dissipation due to rotational effects.
- The fluid flow exhibited irrotational behavior when the curl of its velocity field was zero, indicating the absence of circulation and rotational motion.
- The irrotational flow field allowed for the application of potential flow theory, which greatly simplified the analysis and understanding of the flow dynamics.
- In irrotational vortices, the fluid particles moved in concentric circles without any swirling motion, maintaining a constant angular velocity.
- The irrotational flow conditions facilitated the use of mathematical tools like the velocity potential function to describe the flow field's behavior.
- The irrotational nature of the flow ensured that the fluid's momentum was purely translational, indicating the absence of any rotational momentum.
- The irrotational flow behavior played a crucial role in various applications, such as the analysis of potential flows around airfoils and the design of efficient propellers.
irrotational Meaning
irrotational (a.)
Not rotatory; passing from one point to another by a movement other than rotation; -- said of the movement of parts of a liquid or yielding mass.
Synonyms & Antonyms of irrotational
No Synonyms and anytonyms found
FAQs About the word irrotational
Not rotatory; passing from one point to another by a movement other than rotation; -- said of the movement of parts of a liquid or yielding mass.
No synonyms found.
No antonyms found.
The flow of the fluid was irrotational, meaning it lacked any curl or rotation.
The behavior of the irrotational fluid was characterized by its smooth and steady movement, without the formation of eddies or whirlpools.
In the irrotational flow, fluid particles followed smooth and parallel paths, exhibiting a lack of rotational motion.
The irrotational nature of the flow ensured that the fluid's velocity field exhibited a conservative behavior, with no energy dissipation due to rotational effects.
