Latest Articles for Fluid Mechanics

Research examines how laser heating affects particle interactions in fluid mixtures.

This article discusses solutions to the quasilinear Schrödinger equation in physics.

Study of soliton gas interactions using a water tank experiment.

New algorithm improves analysis of complex datasets for researchers.

A look into how fluids behave during motion and the transition to turbulence.

This study investigates fluid dynamics with free boundaries and surface tension.

A fresh approach alters fluid interactions using external forces.

A new tool for improving fluid mechanics research through Lagrangian methods.

Explore methods for detecting issues in fluid simulations.

This study examines water's behavior when freezing and thawing in glass beads.

A simpler way to predict complex patterns using fluid dynamics.

A look at fluid flow behavior in planetary atmospheres.

Exploring the Burgers equation in fluid dynamics and its applications.

A new method improves airflow studies around vehicles for better performance.

A study on how gas behaves in star-forming regions of space.

New techniques enhance the quality of fluid dynamics data for research and engineering.

This study investigates the role of circulation in turbulent fluid dynamics.

A look at how liquids behave in different states.

A study on modeling fluid movement in membranes considering inertial effects.

Exploring vortex behavior on various surfaces and applications in science.

Learn how non-Brownian suspensions behave under shear stress.

An examination of soliton gases and their connection to generalized hydrodynamics.

Examining the behavior and interactions of gas bubbles in changing liquid conditions.

Exploring how organisms expel fluids for survival and innovation.

A method improves solutions for Navier-Stokes equations in fluid mechanics.

Study reveals passive fluid control using bending beams in channels.

Universal Physics Transformers improve fluid dynamics modeling efficiency and accuracy.

This study examines the effects of sideways forces on fluid motion and heat transport.

This study investigates the motion of particles in a fluid that oscillates back and forth.

New methods provide solutions to complex functional differential equations in science.

This study analyzes heat transfer and fluid movement in porous materials using a finite element model.

New methods improve accuracy and efficiency in simulating gas flows under extreme conditions.

This study links gravitational shockwaves to fluid mechanics, exploring their effects on spacetime and light.

Exploring the effects of mechanical stress on fluids in tiny materials.

Examining filament dynamics for insights into biological processes and engineering applications.

This article examines bubble formation and microlayer dynamics in varying pressure conditions.

A new method enhances accuracy in simulating unbounded fluid flows.

Exploring the significance of solitary waves in various scientific fields.

A study of particle behavior in fluids under thermodynamic principles.

This study assesses GPU benefits for CFD simulations in terms of speed, power, and costs.