My fourth article in this series is about our waves.

The first article talked about the law of energy and how the sum of the quadratic velocities in the invisible systems of magnetism, gravity, time can be summed up as a vector. They are interrelated to each other at least one way through our visible space.

The second article described that the energy in our visible space ma² and invisible systems mb² are a summed constant mc². It is Pythagoras. If we speed up in our visible system, we need to tap into the invisible energy like time.

The third article described materials as standing waves. Should you invest enough energy with the right quantum phase, an oscillating standing wave is built, that has a definite location. If too little energy is added, it returns. Too much energy makes your particles escape. The orbiting energy keeps them stable.

relativity-iv

Copyright© Miklos Szegedi, 2023.

Our visible space is stable. That means it consists of material. Material is defined in this model as standing wave that has the right amount of energy to stay there.

How do we escape? We can build magnetic fields. These come into existence, if we drive charged particles in a circle building such a phenomenon. Some materials even create stronger forces in this invisible system like iron or Rare Earth Materials. Simple electronic devices already have such resonators. The GHz frequency of Intel processors is made up of such an electromagnetic resonator built of resistance, a capacitor, and an inductor of magnetic field.

Escaping will tap into the energy of your device in the invisible system. This system has an energy of the sum of forces like magnetism, gravity, or our kinetic energy in time. All add up to mc². Should you create a magnetic field strong enough, your particle may lose mass and energy reaching the orbiting energy of an invisible space. You can measure the mass loss of atoms after a nuclear blast for example.

Each space has some material that is the carrier material for waves. It is called ether in our visible space. Waves spread the resonating movement of the material of standing waves in this model. Their maximum speed is tied to the speed at which this material fluctuates.

Waves are low energy as a result. Photons of visible light are one of the weakest type of energy that we know about.

The carrier material fluctuates at a certain speed at its eigen-frequency. The waves that it carries cannot be faster than this speed. Also, the energy of the wave is the sum of the energy of the phase (a.k.a. potential, or quantum) of each particle participating in the wave. All together the energy of the wave is mc².

The next article will be about how thick is the visible space in the time system.

Continued...

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