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NESTED POCKETS OF SPACETIME So then what is the nature of spacetime? Foremost we must accept that it extends infinitely in all directions and our visible universe is part of a single cohesive frame of reference sharing the same relative velocity and same relative trajectory. All objects sharing this pocket of relative space time also share in the collective passage of time at a single “absolute” rate of time relative to every atom inside this pocket. However objects in the Milky Way could see a collective passage of time at a different rate than some other galaxy in some other supercluster. But against the backdrop of the passage of time seen by our Post as a whole there is a standard frame of reference that an observer could measure the differences seen by every cluster, galaxy, and system. The difference is very likely negligible in most cases but it does exist and there is a succession of nested frames of references or pocket of space time getting increasingly larger and larger. Every cohesive pocket of relative spacetime shares the same intersection with the line of time and that line is a subset of the line of time of the next largest pocket of spacetime. And every post will take on the aggregate collective dimensions of the objects that share the same spacetime. The waves that emanate outwards from every object when joined with the waves of all the other objects around it take on an aggregate nature. Just like lots of small lights in proximity will look like a single brighter light from a certain distance away so does gravity and magnetism and all forms of electromagnetic radiation allow the parent pocket of space time to take on the aggregate properties. From a distance a collection of objects can look and behave like a single object and have an approximate length and width and height based on some scale factor familiar to the observer. It can also have an approximate relative velocity , speed of rotation, axis of rotation , orbital period , luminosity , charge , temperature , density, center of gravity and center of mass. A pocket of spacetime may not always have every one of these dimensions measurable by the scale factors relative to the observer but in general every object has a sphere of influence. This sphere of influence may take on difference measurements and different strengths at different scale factors. Close up things may look brighter or cause a greater gravitational attraction or electromagnetic attraction and at further distances the spheres of influence dissipate. Imagine throwing a rock into a pond and the concentric waves that emanate outwards. Now imagine that in the shape of a sphere with spherical waves emanating outwards. One for gravity , one for luminosity ( which could include reflection and refraction ) , one for electrical charge, often one for a magnetic field and even a temperature field. Each emanating outwards with different intensities or strengths. Each extends outwards as waves for a certain amount of distance relative to the displacement caused by the cohesive pocket of relative spacetime. Each wave is basically an attempt to return that portion of spacetime back to equilibrium and the energy needed to return back to equilibrium is seen by the amplitude of the wave. As the wave propagates it turns kinetic energy stored in the wave’s amplitude into the energy needed to displace a larger section of spacetime from equilibrium. In other words as the spheres of influence get larger there is a conversion of energy from the wave’s amplitude into the circumference of the next wavelength. At a certain distance away the amplitudes may become unmeasurable yet the waves of influence continue on a bit further. This varies based on the strength of the source wave and type of source wave but all interactions at all scale factors are based on these spheres of influences between objects. This includes quantum interactions which define the minimum wavelength and successive possible wavelengths we might see in all forms of electromagnetic radiation. We think of a single line of attraction between two masses when we try to calculate the gravitational attraction between them. We can calculate the force of attraction very well using this approximate line between the two centers of mass but that is not really what is happening behind the scenes. In reality there are many different points of intersection between the two spheres of influence. Every point of intersection can play a part of the total aggregate gravitational attraction. Each sphere of influence given off by an object or group of objects can behave in certain ways when those spheres intersect. Some can be in phase and when waves are in phase they have the potential to take on an aggregation of energy. Other waves that interfere differently at different levels of being “out of phase” can take on different types of aggregation of energy from attraction to repulsion. At every point of intersection between two spheres of influence there is a triangle formed between that point , and the two sources and there could be hundreds of thousands if not millions of these points of intersection for each sphere of influence between any two objects. We may measure gravity and other field strengths as inversely proportional to distance but behind the approximate formula is a better one that can use calculus to determine how two specific spheres of influence and the millions of different triangles formed by all the different points of intersection in turn define the true force of attraction or repulsion. At each point the intersecting waves could be in phase or some degree out of phase. The amplitude of the wave that defines its energy when out of phase also with a wave of larger amplitude will see a stronger attraction or repulsion at that point in the wave and those waves with smaller amplitudes will see less of an interference. I also feel that frequency and wavelength and not just amplitude all play a significant part in how all the different forms of electromagnetic radiation ( including gravity ) interact. Inside our pocket of relative spacetime we have quadrillions if not quintillions of celestial objects each with their own spheres of influence. Sending light waves or magnetic waves or gravitational waves or other forms of electromagnetic radiation creates a huge interconnected framework of interactions of a nearly unmeasurable number of different points of intersection. But they are not intersections of just two waves, every point in localized spacetime would have a nearly unmeasurable number of different waves intersecting from hundreds of trillions of spheres of influence with measurable amplitudes at that point. And other points in spacetime will have far fewer points of intersection in the localized vicinity. Larger supervoids and the vast spaces between galaxies would see the amplitudes of any remaining spheres of influence except for the most massive of objects all dissipate away. Those are the spots of near equilibrium. Those are the spots where spacetime is at rest or as close as we could measure to being at rest. This is because there is no significantly visible or measurable displacement across any of the different forms of electromagnetic radiation that emanates from every pocket of relative spacetime passing near that point. That is the natural state of nature. #spheresofinfluence #thenaturalstateofnature https://youtu.be/8YkfEft4p-w https://youtu.be/fDTl1luohfI https://youtu.be/DbCWdFMcK38 https://www.youtube.com/watch?v=5bSy18w8Dh0 #spacetime #nestedpocketsofspacetime #relativity
#thenaturalstateofnature
All the darkness in the entire vast multiverse can not defeat the flame of a single candle.
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