Latest Articles for Fluid Dynamics

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

A look at how fluids and structures influence each other across various fields.

A novel approach using Galerkin-Boltzmann and neural networks to analyze fluid behavior.

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

Examining how gravitational waves form during early universe phase transitions.

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

Research explores how spinning rotors in fluids form dynamic structures.

Rational neural networks enhance fluid dynamics accuracy and efficiency in simulations.

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

This article examines how fluids behave in underground rocks and its implications.

Exploring fluid behaviors influenced by redefined properties in extreme conditions.

Exploring the adaptive mesh refinement framework in astrophysical simulations.

Discover how shallow water waves connect with strange physics principles.

Scientists use neural networks to better predict fluid behavior in various environments.

Learn how rotational optical tweezers help scientists study tiny particles in liquids.

AMG offers a fresh approach to solving complex Partial Differential Equations efficiently.

Discover how CaLES speeds up fluid simulations for engineering.

Combining machine learning with fluid dynamics improves predictions and applications.

Discover how different fluids behave and interact in exciting ways.

Discover the fascinating world of tiny swimmers and their real-life applications.

Learn about Wilton ripples and their connection to the Kawahara equation.

Using machine learning models to predict fluid movements efficiently.

Researchers enhance water droplet simulations for realism and practical applications.

Discover the blend of quantum computing and fluid dynamics in QLBMs.

CES offers improved accuracy and efficiency in simulating complex fluid dynamics.

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

Discover how fluids move in equatorial regions and their global impact.

Explore how median-dual regions simplify complex geometry in fluid dynamics.

Discover the unique behavior of ferromagnetic fluids in magnetic fields.

Discover how FLRONet predicts fluid flows with minimal sensor data.

Discover the fascinating world of fluid movement and its real-world applications.

Researchers use machine learning to improve understanding of fluid dynamics for real-world applications.

Discover how water interacts with magnetic fields in fascinating ways.

Discover how fluid dynamics enhances our grasp of quantum systems.

Using GNNs to optimize shapes for improved efficiency and reduced noise.

Explore how collision integrals reveal the dynamics of dense gases.

Discover the intricate interactions between particles and fluids across various fields.

SPICEsat aims to improve spacecraft stability by studying fuel behavior in microgravity.