Explore the fascinating interaction between magnetism and electricity in Python Physics #34! In this video, we visualize how magnetic fields affect a current-carrying loop using Python simulations.

Learn how to simulate Faraday’s Law in electrodynamics using Python (Part 2)! In this video, we continue our step-by-step tutorial on modeling electromagnetic induction, showing how changing magnetic ...

Canada’s tech scene is really taking off. It feels like every day there’s news about new companies, new jobs, and new ways technology is changing things. Big cities are becoming huge tech centers, ...

Scientists have long seen a puzzling pattern in tokamaks, the doughnut-shaped machines that could one day reliably generate electricity from fusing atoms. When plasma particles escape the core of the ...

OFDM baseband transceiver: theoretical BER (AWGN), Monte Carlo BER vs SNR, QPSK and 16-QAM, AWGN and multipath channels, ZF/MMSE equalization, EVM (Error Vector ...

This episode of the Physics World Weekly podcast features Amanda Randles, who is a computer scientist and biomedical engineer at Duke University in the US. In a conversation with Physics World’s ...

Abstract: While the prediction of AC losses during transients is critical for designing large-scale low-temperature supercon ducting (LTS) magnets, brute-force finite-element (FE) simulation of their ...

This project is a simulation of how information spreads across a network of interconnected devices, built in Python with clean separation of simulation logic, event scheduling, and device state ...