WarpDriveRWA

Join WarpDrive RWA at Hannover Messe 2024! We are excited to announce our participation in Hannover Messe from April 22 to 26, 2024. Join us in Hall 17, B84, where we will share groundbreaking discoveries in the field of magnetic properties and electromagnetic fields, promising to redefine the future of science, technology, and medicine. Our research, based on the bold hypotheses of renowned scientists such as James Maxwell, opens up new horizons in understanding the hidden forces of nature. We invite investors, scientists, engineers, and technology enthusiasts to support and collaborate with us on this fascinating journey. The future belongs to those who strive to understand the unknown. Support our project and become part of a brighter future with WarpDrive RWA at Hannover Messe 2024!  Our contact information  

Experimental research of the Second Component of the ElectroMagnetic Field. Before reading the article, it is recommended to have an overview of the short description of the second component of the electromagnetic field (SCEMF). For a reason of complexity and non-standard material, the information in the brief article is presented in the simplest form. In the brief article the presented information concerns conducted analysis about self-restrictions in modern science. The result of researches concerning real physical phenomena of nature adjusted for fundamental and basic calibrations, which closes the door to knowledge for humanity, is presented. It is suggested to realize it and reveal. Everyone is familiar with the fundamental theorem of Stokes and Helmholtz field theory, which describes liquid and gas flow. There are different mathematician approaches to describe it. Let us describe one of them, mainly the integral-differential representation, which consists of two components: rotH+

Hello, dear readers and pioneers of technological progress!  Today, we want to share exciting news with you about the development of the WarpDrive RWA project, which promises to bring revolutionary changes to the world of technology. Together, we stand on the threshold of a new era, and your support and participation can significantly accelerate the achievement of this great goal. Visit our website https://rwa.ua/en/ to learn more about the project and find out how  you can contribute.  Join us today and become a part of the technological future! These two articles are also available on ResearchGate https://www.researchgate.net/profile/Dmytro-Kuzmenko-5 , providing detailed information about our project. By following the links below, you have the opportunity to download the documents in PDF format. 1). Brief Description of Experimental Research of the Second Component of the  Electromagnetic Field. 2). Brief Article Experimental Research of the Second Component of the  Electromagnetic

The Dzhanibekov Effect, otherwise known as the intermediate axis theorem or the tennis racket theorem, represents one of the most astonishing and significant effects in classical mechanics. It describes the instability of the rotation of a rigid body around its second principal axis of inertia and became widely known to the public thanks to Soviet cosmonaut Vladimir Dzhanibekov, who observed this effect in zero gravity. The Dzhanibekov Effect plays a critical role in the design and management of space flights. It is applied at all stages of flight, starting from the distribution of the center of mass of the spacecraft to the calculation of the positioning of antennas and solar panels. Without taking this theorem into account, spacecraft may undergo uncontrollable rotations similar to the rotation of a Dzhanibekov nut, which can critically affect their trajectories and functioning. Interestingly, the Dzhanibekov Effect also finds application in quantum physics. The angular momentum, kno

Having been involved in the development of rail transport control systems and their components for decades, we have observed frequent calibrations and paradoxes in modern sciences. In this article, we delve into the realm of hidden effects, which, while remaining unnoticed, nevertheless permeate and alter our world. We not only analyze theories that uncover these elusive aspects of reality but also conduct a series of practical experiments to demonstrate their existence. Our research is built upon the works of eminent scientists such as James Maxwell, Oliver Lodge, Thomas Townsend Brown, and Hugo Gernsback. In their writings, they have put forward daring hypotheses about the existence of hidden parameters, invisible forces, and subtle energies that may influence the course of physical processes. The experiments we have conducted have confirmed the presence of hidden effects, albeit their impact has proven to be insignificant. To amplify them, we have resorted to mathematical modeling b