Mike McCulloch, a professor of physics at the University of Plymouth in the United Kingdom, plans to use $1.3 million from the Defense Advanced Research Projects Agency (DARPA) to prove that his quantified inertia is not just generated in the online physics forum debate. A spark of thought. McCulloch considers himself to quantify inertia and the Anru effect, which is a prediction:
An accelerated motion observer can observe the blackbody radiation that inertial observers cannot see, that is, the observer who accelerates the motion will find himself in a warm cosmic background.) The idea can trigger a new rocket engine design. This engine does not require chemical fuel, but turns light into thrust. DARPA engineers also think that McCulloch's idea may be a good idea.
Mike Fiddy, head of the Light and Matter Interaction Program at the DARPA Defense Science Office, said: 'The space sector already has more and more global players, and DARPA is trying to dig deeper into how to move objects in a more efficient and versatile form. McCulloch believes that the Anlu effect imbalance can be used to generate a more energy-efficient drive.
In a previously published paper, McCulloch relied on his own theory of quantitative inertia to answer the rotation of the galaxy (completely splitting dark matter) and the thrust generated by the electromagnetically driven engine. The electromagnetic drive engine is a demand for chemical fuel that NASA is trying to develop. Less rocket engine. According to the inventor of the electromagnetic drive engine, the engine emits microwaves from one end of an irregularly shaped container to the other end, and the thrust is obtained by the different radiation pressures produced. However, a study earlier this year questioned this. Whether the design will have an effect.
McCulloch said: 'I think the electromagnetic drive engine is a manifestation of inertial quantification. Different experimental setups may produce more powerful thrust. 'The DARPA grant will be used for more theoretical research before being used for experiments. McCulloch said: 'The money will first allow me to hire a postdoc.' With the help of postdoctoral researchers, McCulloch plans to continue to improve his quantitative inertia theory. He plans to try to create a digital model that makes this theory completely predictable. Sex.
After 18 months of theoretical improvement, these funds will help fund two experimental teams in Germany and Spain, which will establish experiments to explore this thrust theory. If the experiment is finally successful as predicted by McCulloch, the researchers Will find ways to enhance this thrust.
McCulloch hopes to continue to use his theory to explain and understand observable astronomical data at different stages of research. McCulloch said: 'I think the power of this theory lies in being able to explain many things of different scales, whether at the cosmic level or at the laboratory level. All can be.'
McCulloch's theory claims that the interpretation of cosmological phenomena is more accurate than the standard model, and the basis of the standard model is the existence of dark matter. His theory has also met with opposition from some physicists. McCulloch said: 'Many people who believe in dark matter oppose me. Theory. They don't like this theory at all, because many scientists and universities have received a lot of money and built expensive equipment to look for dark matter.'
But even if mainstream physicists don't agree with McCulloch's theory, DARPA has a lot of interest in it. Fiddy said: 'What we are interested in is that the deep understanding of the interaction between electromagnetic waves and matter will lead to more new theories. When these new ideas are related to DARPA projects and can be tested, DARPA may support them.'
