Latest Articles for Fluid Mechanics

This article explores how gases evolve from polynomial to Gaussian distributions over time.

Research sheds light on predicting extreme water waves and their behavior.

A new approach improves accuracy in fluid flow simulations through complex materials.

New methods improve simulations of fluid flows in porous media with uncertain parameters.

A comprehensive look at hydrodynamics and its fundamental principles in fluid mechanics.

Physics-informed neural networks offer new methods for analyzing complex fluid flows.

Examining how different shapes influence air movement over surfaces.

This article examines the cKdV equation and its role in modeling radial waves.

New methods improve fluid simulations using point clouds for better efficiency and accuracy.

A look into how scientists study the inside of planets through innovative experiments.

Exploring the dynamics of solitons and other solutions in wave systems.

This article examines how water surface shapes reflect underwater movements.

Research explores how spinning rotors in fluids form dynamic structures.

Introducing a robust method for solving Navier-Stokes equations in fluid dynamics.

Study reveals unique bubble formations in non-Newtonian liquid jets.

Exploring how AI enhances understanding of fluid dynamics and turbulence modeling.

A look at fluid dynamics and the role of randomness in modeling.

ASPINN offers a fresh solution for challenging singularly perturbed differential equations.

Exploring fluid behaviors influenced by redefined properties in extreme conditions.

Innovative numerical strategies improve understanding of water flows in diverse environments.

Study reveals how parallel cylinders affect fluid motion and forces in viscous flow.

A look into the unique properties of superfluid helium and its implications.

Exploring fluid behavior in structures with holes using mathematical methods.

An overview of the Oseen eigenvalue problem and its significance in fluid dynamics.

Explore the interaction of different fluids and flexible barriers.

Examining how elastic materials interact with fluids and surface tension.

Learn how topology optimization creates lightweight and effective designs for fluid applications.

An overview of solitons and breathers in nonlinear wave equations.

A look at how percolation theory and branching processes relate.

This article explores the application of IMEX-RK methods in gas dynamics.

Exploring the science behind fluids and magnetic fields.

A look at how ions behave under electric forces in confined environments.

This study examines how turbulent flow affects forces on a cylinder.

FLRNet improves fluid flow reconstruction using limited sensor data.

How tiny swimmers use teamwork to move through chaotic waters.

Discover how polymers influence fluid behavior in various industries.

A method for solving Sobolev-type equations to study wave behaviors effectively.

Learn how droplets act on surfaces and their impact in various industries.

Discover how FLRONet predicts fluid flows with minimal sensor data.

Exploring the behavior of functionals, Orlicz growth, and regularity in mathematics.