Quadratic equations play a vital role in explaining motion and shape in the physical world. They are used in projectile ...

The early modern physicist Isaac Newton had presumed an unperceived yet real flow of time. To Newton, time is a dynamic ...

Artificial intelligence (AI) systems, particularly artificial neural networks, have proved to be highly promising tools for ...

Stacking dies introduces layers of complexity driven by multi-physics interactions, which must be addressed at the start of ...

A tool called AI-Newton can derive scientific laws from raw data, but is some way from developing human-like reasoning.

A new theory-based approach provides access to the minute transverse motion of quarks within protons. Nuclear physicists have developed a new theoretical framework that allows them to calculate a ...

Scientists learned that reading a quantum clock requires orders of magnitude more energy than running it. This surprising imbalance reveals that observation itself shapes the flow and thermodynamics ...

This paper describes the eccentricity, amplitude, phase shift, angular momentum, polarization, radial path, and orbital ...

Scientists struggle with the physics of fluids. A recent Google breakthrough could support better predictions and practical ...

For as long as people have looked for answers in the night sky, the idea of stepping into a machine and arriving in an ...

The Navier–Stokes partial differential equation was developed in the early 19th century by Claude-Louis Navier and George ...

Technology partners will focus on scalable cryogenic I/O cabling assemblies for next-generation quantum computing systems ...