Light symmetry, standing waves without interference, and amplitude bias propulsion experiments

Canada
Physics
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About This Project

Several problems have arisen in relativity theory, one of which is the possibility of incorrect prediction values for time-dilation in continued cesium clock experiments in various settings, and the now appearant logical error in the equations derived from the assumption of the constancy of the speed of light in relation to the moving-standing observer example. This has presented a number of opportunities for an updated and correct theory, and along with it have arisen several possible roads.

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What is the context of this research?

While considering research in connecting the theory of light as a wave and particle, I stumbled upon the image here and it gave me the idea that if there is length contraction in a direction of motion, yet light remains unchanged, and that photons have the size of a wavelength, that they would somehow diffract lop-sidedly through a subwavelength slit.

In later research, I also arrived at the conclusion that there can be continuous, non-oscillating crests without any troughs. Then I had realized I had probably come up with a way to explain what had been observed with experiments of resonant cavity thrusters, that failed to be reproduced in other cases, and also with the rise also of experiments in phase-frequency propulsion using sound waves.

What is the significance of this project?

It would give confirmation to my theories and lead to a whole new understanding of physics and overcome relativity and quantum physics. We would come to an understanding of time-dilation, length-contraction, and perhaps create non-reactive, fuelless propulsion that could be powered by on-board nuclear generators. Among other things, I'm also hoping that we can construct a graphic of space geometry that includes electric and gravitational forces, as proposed and developed by Einstein during the later years of his life, and a new understanding of black holes, teleportation through the bending and warping of space, and the possibility of time travel. Also it will help to develop my theories and models of a symmetric contracted orbital mechanics and isotropic speed of light.

What are the goals of the project?

The purpose of the project is to produce a continuous amplitude bias in a certain direction using DC current and varied resistances along different paths of wire, and to perhaps measure perhaps in a later experiment using other equipment if this produces any kind of force. And initially we must also test for the possibility of a detectable change in amplitude through a diffraction slit, meaning the possibility of determining an absolute velocity through space, or more food for thought. A multimeter will be used to measure the resistance across the circuits, oscilloscopes and spectrum analyzers will produce values for any measured electromagnetic radiation produced and at what frequencies and amplitudes, and any possible thrust will be roughly measured if any can be detected.

Budget

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The oscilloscope would be necessary to detect a standing wave amplitude bias in a certain direction.

An 8-inch long USB spectrum analyzer with GHz or at least 434 MHz frequency is required, which would fit in a small Faraday cage.

The copper, aluminum, iron, tungsten, possibly other, wires would be needed for testing various resistance designs of emitters.

The nichrome wire is required for producing enough resistance in a coiled loop to possibly act in a way similar to a magnetron to generate an amplitude bias.

The analog multimeter is needed to measure the device components, with a household outlet, and DC adapters.

The bridge rectifier transforms the AC current into DC.

The HV9925 is needed to create a pulse for one of the designs that involves an unbalanced AC current through the resistance or other wires.

You can find out more about the necessary electronic components at my discussion here.

Endorsed by

As a rebar detailer I have some understanding of Newton's laws and a grasp of load bearing principles used in construction. I have taken a look at his work and it seems impressive yet I cannot understand it. My work in CAD makes me much impressed with his work in programming game engine level editors and this might possibly help in making technical models and simulations.
When he first mentioned what he was doing in physics and his writing I immediately became interested. He is doing work that nobody else is doing. I had always known him as a programmer, and didn't realize that he had such a grasp of such problems. And possibly more so than actual physicists due to his experience with working through challenging mental tasks and building up models in his head.
I have known Denis as a serious thinker and somebody who takes his work and life very seriously. He is dedicated to his tasks and if he cannot succeed or figure out a problem he will exhaust every option and find the right answer. I believe in Denis and that he can find an answer that we are all looking for.

Project Timeline

There would need to be some time for the equipment to be ordered and delivered. The experiments themselves do not need to take long, but can require some time in constructing and testing the electrical configurations of the DC amplitude bias arrangement. If we fulfill the requirements of the funding, I may go ahead with purchasing the equipment ahead of schedule of the payments. If we do not fulfill the requirements by the end of the period, I may still purchase them myself.

Jul 31, 2017

Possible purchase of equipment ahead of schedule, contingent on fulfilling budget requirements ahead of schedule

Aug 31, 2017

Equipment delivery and construction of DC amplitude bias apparatus

Sep 14, 2017

Everything done and results presented

Meet the Team

Denis Ivanov
Denis Ivanov

Denis Ivanov

I have taken cosmology at UBC, with a foundation in special and general relativity, and organic chemistries, with a foundation in quantum mechanics as it relates to chemistry.

Lab Notes

Nothing posted yet.

Additional Information

The oscilloscope would be necessary to detect a standing wave amplitude bias in a certain direction, and whether it is affected by different materials of conductors, or rather by how much, and which design can produce the greatest amplitude bias. The oscilloscope would have to be sensitive enough to pick up the amplitude. An oscilloscope is needed to give a raw feed of amplitude, perhaps insulated in an aluminum foil Faraday cage construction to block out interferences. If a strong enough signal cannot be produced, a greater voltage and wattage may be required, which may become dangerous, at which point it is uncertain what will happen. I am hoping this will not be required.

An 8-inch long USB spectrum analyzer with GHz or at least 434 MHz frequency is required, which would fit in a small Faraday cage already constructed by me, and operate by USB so that the Faraday cage could be rotated and oriented while still recording the data without interfering with the sealed environment.

You can read my twitter at https://twitter.com/neurohash (you can use twitter advanced search with my username to get all my older tweets at https://twitter.com/search-adv... or type "from:username since:yyyy-mm-dd until:yyyy-mm-dd" into search), my essays at http://www.gsjournal.net/Scien... , and my blog at http://polyfrag.livejournal.co... for a greater look at my ideas and the information regarding the experiments. If you like sci-fi art you can also look at my deviantart at http://polyfrag.deviantart.com... . You can also see the discussion for the electronics schematics designs at http://www.electro-tech-online... . There are some PDF's from my twitter here with many of the ideas in my theories: https://www.docdroid.net/ucZPm... , https://www.docdroid.net/rYHWo... , https://drive.google.com/file/... , https://drive.google.com/file/... , https://www.docdroid.net/9KBeu... , https://www.docdroid.net/7rPOQ... , https://www.docdroid.net/Qlohu... , https://www.docdroid.net/1WH5m... , https://www.docdroid.net/zV7Cm... , https://www.docdroid.net/Miwh9... .


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