In this video, we build a Python simulation to compute the electric field produced by a uniformly charged ring. Using numerical integration, we visualize the field behavior and compare it with key ...

This video demonstrates how to model rigid objects using springs in a Python physics simulation. We explore how spring forces approximate rigidity, analyze motion and stability, and visualize the ...

Mass is what gives particles weight and makes matter behave the way it does. Today’s best theory says particles get their mass from the Higgs field, an invisible feature of space that has been ...

ABSTRACT: Accurate prediction of water travel time in drip irrigation systems is essential for efficient water and nutrient delivery. This study develops a predictive model for travel time by ...

A comprehensive Python package for simulating, analyzing, and visualizing wind and superficial ocean currents. This package provides tools for accessing oceanographic data, performing analysis, ...

Despite its simplicity, the model is foundational. It is often the first non-trivial system for which students solve the Schrödinger equation exactly, and it beautifully illustrates core quantum ideas ...

If such a simulation were possible, the simulated universe could itself give rise to life, which in turn might create its own simulation. This recursive possibility makes it seem highly unlikely that ...

Abstract: Superconducting quantum circuits constitute one of the most advanced and promising platforms for building fault-tolerant quantum computers. However, the associated relatively short coherence ...

Takasaki Institute for Advanced Quantum Science, National Institutes for Quantum Science and Technology (QST), 1233 Watanuki-machi, Takasaki 370-1292, Gunma, Japan Graduate School of Science and ...