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Calculation of the Meniscus Shape Formed under Gravitational Force by Solving the Young–Laplace Differential Equation Using the Bézier Curve Method | ACS Omega
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Cross section of a meniscus in a cylindrical tube with θ = 10° and a... | Download Scientific Diagram
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Meniscus depth vs. the capillary size for various contact angles for... | Download Scientific Diagram
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Meniscus on a shaped fibre: singularities and hodograph formulation | Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences
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Computation | Free Full-Text | Contact Angle Effects on Pore and Corner Arc Menisci in Polygonal Capillary Tubes Studied with the Pseudopotential Multiphase Lattice Boltzmann Model
![Calculation of the Meniscus Shape Formed under Gravitational Force by Solving the Young–Laplace Differential Equation Using the Bézier Curve Method | ACS Omega Calculation of the Meniscus Shape Formed under Gravitational Force by Solving the Young–Laplace Differential Equation Using the Bézier Curve Method | ACS Omega](https://pubs.acs.org/cms/10.1021/acsomega.2c04359/asset/images/large/ao2c04359_0002.jpeg)
Calculation of the Meniscus Shape Formed under Gravitational Force by Solving the Young–Laplace Differential Equation Using the Bézier Curve Method | ACS Omega
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The effect of isolated ridges and grooves on static menisci in rectangular channels | Journal of Fluid Mechanics | Cambridge Core
![Computation | Free Full-Text | Contact Angle Effects on Pore and Corner Arc Menisci in Polygonal Capillary Tubes Studied with the Pseudopotential Multiphase Lattice Boltzmann Model Computation | Free Full-Text | Contact Angle Effects on Pore and Corner Arc Menisci in Polygonal Capillary Tubes Studied with the Pseudopotential Multiphase Lattice Boltzmann Model](https://www.mdpi.com/computation/computation-04-00012/article_deploy/html/images/computation-04-00012-g001.png)
Computation | Free Full-Text | Contact Angle Effects on Pore and Corner Arc Menisci in Polygonal Capillary Tubes Studied with the Pseudopotential Multiphase Lattice Boltzmann Model
![Calculation of the Meniscus Shape Formed under Gravitational Force by Solving the Young–Laplace Differential Equation Using the Bézier Curve Method | ACS Omega Calculation of the Meniscus Shape Formed under Gravitational Force by Solving the Young–Laplace Differential Equation Using the Bézier Curve Method | ACS Omega](https://pubs.acs.org/cms/10.1021/acsomega.2c04359/asset/images/large/ao2c04359_0008.jpeg)
Calculation of the Meniscus Shape Formed under Gravitational Force by Solving the Young–Laplace Differential Equation Using the Bézier Curve Method | ACS Omega
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Calculation of the Meniscus Shape Formed under Gravitational Force by Solving the Young–Laplace Differential Equation Using the Bézier Curve Method | ACS Omega
![Calculation of the Meniscus Shape Formed under Gravitational Force by Solving the Young–Laplace Differential Equation Using the Bézier Curve Method | ACS Omega Calculation of the Meniscus Shape Formed under Gravitational Force by Solving the Young–Laplace Differential Equation Using the Bézier Curve Method | ACS Omega](https://pubs.acs.org/cms/10.1021/acsomega.2c04359/asset/images/medium/ao2c04359_0006.gif)
Calculation of the Meniscus Shape Formed under Gravitational Force by Solving the Young–Laplace Differential Equation Using the Bézier Curve Method | ACS Omega
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