In 1930, a young physicist named Carl D. Anderson was tasked by his mentor with measuring the energies of cosmic rays—particles arriving at high speed from outer space.

In Python Physics Lesson 24, we explore the simulation of a dipole electric field! Learn how to model electric fields using Python, visualize field lines, and understand the principles of dipole ...

In Python Physics Lesson 14, we explore the simulation of elastic collisions and springs! Learn how to model collisions, spring dynamics, and energy transfer using Python, with step-by-step coding and ...

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 ...

Abstract: We introduce the QARN (Quantum Accelerated and Reconfigurable, Noisy) simulator, an efficient and scalable state vector based quantum circuit simulator. Implemented in Python, QARN delivers ...

Abstract: Background gas may be present near the cathode surface whether due to insufficient vacuum or outgassing during device operation. Ionization of this gas can have an effect on the electric ...

Ocean surface waves are inherently irregular and stochastic. While individual wave events appear chaotic and unpredictable, the collective behavior of wave fields exhibits robust statistical structure ...