Shock waves should not be shocking—engineers across scientific fields need to be able to precisely predict how the instant and strong pressure changes initiate and dissipate to prevent damage. Now, ...

The Urban Prepper explains Terry Silver’s “QuickSilver Method” for prepping enthusiasts. Trump wants to ‘end’ largest US infrastructure project, a tunnel between NY and NJ ‘We Reject That’: White ...

Finite volume methods (FVMs) represent a class of numerical techniques that are widely used in the discretisation of elliptic equations, ensuring local conservation of fluxes and often realising high ...

With Social Security’s COLA on the line, the Trump administration plans to release inflation data delayed by the shutdown Scientists Discovered A New Alzheimer's Warning Sign—And It Has To Do With How ...

Can you chip in? This year we’ve reached an extraordinary milestone: 1 trillion web pages preserved on the Wayback Machine. This makes us the largest public repository of internet history ever ...

ABSTRACT: Fractional-order time-delay differential equations can describe many complex physical phenomena with memory or delay effects, which are widely used in the fields of cell biology, control ...

A numerical wave tank for long wave models (dispersive and non-dispersive) based on the finite volume method. The goal is to test various models and various finite volume schemes. Diffuse Optical ...

School of Nuclear Science and Engineering, Oregon State University, Corvallis, OR, United States Modeling strong shock waves in fluids remains a persistent challenge in computational physics.

This is an informal GitHub organization around the finite volume method (FVM) for numerical modeling of (simple) transport phenomena and the software tools that enable this. Compared to finite ...

Abstract: The report discusses the use of a modified finite volume method for calculating the temperature field of a lithium-ion battery. The modified finite volume method reduces the numerical ...