A0354: What is the mass? – Part 2

When we speak of mass, we mean the effect that two bodies in a room negotiate with one another. Their most powerful argument is their gravitational wave, because the gravitational waves negotiate the weight of the body with one another. The weight has to do directly with how high frequency gravitational waves can pass through the low vibrating gravitational waves. When a higher vibrating gravitational wave meets a gravitational wave, the potential of the waves first decides who is allowed to pass first. If the higher vibrating wave has a lot of potential, there is more light material in terms of volume than there is weighty material, then the high-frequency gravitational wave has more potential. Imagine two bodies in space. The lighter body has a larger volume than the heavier one. When the gravitational waves leave the body, the supposedly heavy body with the larger volume will send high-frequency gravitational waves with a greater potential than the heavier body, which is smaller in volume. The small, weighty body sends out lower-frequency gravitational waves in comparison with the voluminous body. The potential of the low-frequency gravitational wave is lower because the volume is smaller. When the high-frequency gravitational wave meets the low-vibrating gravitational wave, the potential determines which wave can simply pass without there being any real weakening. 

The lower vibrating gravitational wave is harmonized by the higher vibrating gravitational wave, what do we mean by that? The higher vibrating gravitational wave is not hindered in its progress, because its vibration has more potential in itself than with the lower vibrating gravitational wave. The potential of the waves will not negate each other, but the waves interact with each other, whereby the frequency and the potential of the gravitational waves strive for a new order, which is calculated from how high the effect of the potentials on each other is. If the vibration is high enough, then the vibration can also be a large number of the lower vibrations, so that the frequency of the gravitational wave can pass the low vibrating gravitational wave, although the low vibrating gravitational wave has more potential. 

We now assume that the higher vibrating gravitational wave has more potential and the frequency is not a multiple of the lower vibrating gravitational wave. When the waves are harmonized, their frequencies and potentials have negotiated so that the more dominant of the waves continues on its way. The structure of the more dominant gravitational wave has changed slightly, thanks to the harmonization. The low vibrating gravitational wave was also harmonized so that it also continues on its way, but this gravitational wave has also adapted in its structure so that both waves continue their path changed and arrive at the body that sent the gravitational wave that caused it gravitational wave was harmonized. If this gravitational wave meets the exiting gravitational wave of the body, it will again be decided which gravitational wave is more dominant. Then the path continues. This is actually just the beginning, as if the bodies were sending their gravitational waves for the first time. 

The resulting gravitational waves are already hit in the body by the harmonized gravitational waves, so that a further harmonization is experienced here, since the gravitational wave created from the particle represents its actual form of energy, which has not yet been harmonized. If the gravitational wave was harmonized directly after exiting the particle, it can continue its way through space almost unhindered. The harmonization has no effect on the potential, but since many particles generate a harmonized gravitational wave in the body, these gravitational waves will unite in the potential, so that they become more and more dominant and emerge from the body as more dominant harmonized gravitational waves and directly again with the incoming harmonized gravitational waves to interact. Here it is again the potential of the gravitational waves that decide which waves are affected. If the incoming harmonized gravitational wave is more dominant, then it weakens the exiting gravitational wave in a way that we have to say, this gravitational wave starves to death on its further way because the incoming gravitational wave has taken over the potential of the outgoing wave, whereby this process is not completely has been explained so that we now have to clarify the situation. 

What happens when two harmonized gravitational waves collide, we ask? Let us imagine the following structure, two bodies from different forms of energy lie in one room. Both bodies have the same volume and both bodies are placed in relation to one another in such a way that they physically interact. If both bodies have the same volume, then one body should generally be heavier than the other body. The bodies act on each other because their gravitational waves act against each other. Because these bodies influence each other, an effect must lead to something that “pulls” something on the bodies, by which we mean your so-called force of attraction. When a body “pulls” on another body, the other body “pulls” on that body as well. Both bodies “pull” on the other body, what does that have to do with gravitational waves, we ask? When gravitational waves are harmonized, then their frequency spectrum has become harmonized and both gravitational waves that were present during the harmonization now know each other and they are connected to each other because they have electrostatically entangled. When they are entangled, that entanglement also works in a way that we will now explain. 

When the entangled gravitational waves travel through space, the entanglement will ensure that they “pull” each other, so that the electrostatic charge of bodies actually represents the entanglement of gravitational waves. This is not yet fully explained, so we will delve deeper into the subject. 

If the gravitational waves are entangled, then each gravitational wave receives the information of the other gravitational wave, because entanglement only happens if the entangled parties also know where the other partner is. Every gravitational wave can entangle itself with all other gravitational waves it encounters on its way. This entanglement is electrostatic in nature and because everything in your universe appears entangled, the universe can be viewed as a huge electrostatic field. All matter, no matter what form of energy it arises, will always have electrostatic properties, even if you are currently assuming something else. Every body has an electrostatic effect on its environment and you are all electrostatically entangled with one another, because you can be with another person with just one thought, all of your mental connections are electrostatic entanglements that you get into one with your existence as a living being and that you always perfect in the course of your life. Every thought about one person strengthens this electrostatic entanglement so that you only need to have one thought to feel how another person is doing because you have strengthened this person-to-person entanglement over the years. 

Everything is electrostatically entangled with one another and the gravitational waves also experience this entanglement, so that they can also strengthen when they meet again and again. The bodies attract each other through the electrostatic entanglement and the harmonization that leads to this entanglement continues, because there are not only two bodies in one room, but the universe consists of innumerable bodies, so that everything is entangled with one another. The writer is currently wondering whether the universe will eventually unite again because the entanglement pulls like a rubber band between all bodies? No, the bodies are attracted by the entanglement, but there is actually still an unknown force that ensures that there is an opposite pole to this electrostatic entanglement. But we still have to explain a lot before we get to this unknown force and everyone who now thinks that it must be dark matter, let me tell you, you haven’t read the last blog entries, otherwise you would know that dark matter not there at all. We will go into the subject further at a later date.