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.
Dot Physics on MSN
Python physics 22: Visual simulation of a point charge’s electric field
In Python Physics #22, we bring electric fields of a point charge to life with interactive Python simulations. Learn how to visualize field lines, understand the direction and magnitude of the ...
Dot Physics on MSN
Python simulation of Faraday’s law electrodynamics part 2
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 ...
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 ...
Some results have been hidden because they may be inaccessible to you
Show inaccessible results