In this paper, we expose and compare two different physical interpretations of Bernoulli’s equation. One interpretation is that pressure must be a type of potential energy density, and Bernoulli’s ...

From Bernoulli’s theorem to vortex flows, fluid mechanics labs bring textbook theory to life. Open lab manuals, creative experiments, and precise tools empower students to connect equations with ...

It’s the same math that explains how, under the right conditions, the atmosphere above a barren plain can produce a roiling ...

A new interactive web app is helping engineering students grasp fluid mechanics by visualising how flows behave, reducing reliance on complex static equations. Fluid mechanics is widely recognised as ...

A new interactive web app is making one of the most challenging areas of engineering education easier to understand, allowing university students to actually see how fluid mechanics works rather than ...

First, modular neural architectures inspired by traditional computational mechanics can embed physical structure directly into network design, enhancing stability and convergence. Second, ...

Artificial intelligence (AI) is increasingly transforming computational mechanics, yet many AI-driven models remain limited by poor interpretability, weak generalization, and insufficient physical ...

Bernoulli's equation is a simple but incredibly important equation in physics and engineering that can help us understand a lot about the flow of fluids in the world around us. It essentially ...

Seven years ago, UC Santa Barbara researchers caught an unexpected phenomenon on film: A pool of red dye that somehow “knew” how to solve a maze filled with milk. Propelled forward by a couple drops ...