The place from where Moon appears to be tracing 9-D path in space

As regards relativity, we know about only two types of relativity — “General Relativity” and “Special Relativity” as has been told to us by Albert Einstein.

But if I am right — nobody has talked about how many levels of relativity exist in the universe.

Though even eight levels of relativity exist in the universe, the first four levels of relativity may be defined as follows.

(i) The first level of the relativity — the surface of the Earth. The moon appears to be tracing to be tracing only a 3–D path in space from this level of relativity.

(ii) The second level of the relativity — the place from where we may be able to see that the Earth is revolving around the Sun. The moon would appear to be tracing a 5-D path in space from this level of relativity.

(iii) The third level of the relativity — the place from where we may be able to see that the Sun is ascending above the galactic level or descending below the galactic level. The moon would appear to be tracing a 7-D path in space from this level of relativity.

(iv) The fourth level of the relativity — the place from where we may be able to see that the Sun is revolving around the center of the Milky Way. The moon would appear to be tracing a 9-D path in space from this level of relativity.

It is worth noticing the impact such levels of relativity have on the dimensions of the path traced by the moon in space.

Let us begin with the dimensions of the path traced by it if we look at it from the Earth.

The dimensions of the path traced by the moon if we look at it from the Earth

When we look at the moon from somewhere from the Earth, it appears to trace a three dimensional path, as shown in the following diagram.

If we may denote these dimensions by D1, D2 and D3 — we may call the diameter of the moon “D1”, the distance of the moon from the center of the Earth “D2” and the angle through which it may turn around the Earth “D3”, as shown in the following diagram.

However, though the moon appears to be tracing a three-dimensional path when we look at it from the Earth, it would appear to be not only tracing a five-dimensional path if you could look at it from a place from where you may see the Earth revolving around the Sun; a seven-dimensional path if you may look at it from a place from where you may see the Sun climbing above the galactic plane (or diving below the galactic plane) but even a nine-dimensional path if you may look at it from a place from where you may see even the Sun revolving around the center of the Milky Way as explained by me, hereunder.

Fourth and fifth dimensions of the path traced by the moon in space if we look at it from a place situated in the second level of relativity

Since when the Earth revolves around the Sun, it carries even the moon around the Sun, the moon appears to be tracing a five-dimensional path instead of a three-dimensional path.

By the time the moon takes one round of the Earth, it also travels along with the Earth around the Sun.

So it traces a path which resembles a helical spring as shown in the following diagram.

Though it does not look like a five-dimensional path, two more dimensions D4 and D5 add up, as shown in the following diagram.

Sixth and seventh dimensions of the path traced by the moon in space if we look at it from a place which may be situated in the third level of relativity

Is it not true that in the same way as Earth takes the moon for a ride while swirling around the Sun; the Sun also takes its all planets along with their all satellites for a ride when it climbs above the galactic plane or when it dives below the galactic plane as has been shown in the following diagram?

Don’t you think, if the path traced by the moon ceased to be three-dimensional when we looked at it from a place from where we may see the Earth revolving around the Sun, the path traced would not cease to be only a 5-D path if we could look at it from a place form where we may see the Sun climbing above or sinking below the galactic plane?

From this level of relativity, its path should look like a 7-D path having such sixth and seventh dimensions “D6 and D7” as have been shown in the following diagram.

The eighth and ninth dimensions of the path traced by the moon in space if we look at it from a place which may be situated in the fourth level of relativity

In the same way as the path of the moon acquires the 4th and the 5th dimensions because the Earth carries the moon also around the Sun, its path acquires the 8th and the 9th dimensions because the Sun carries its all planets along with their satellites around the center of the Milky Way, as shown in the following diagram.

Though it is true that over extremely long periods, spanning millions of years the Sun also travels toward not only the constellation Cygnus but even toward the constellations Lambda Hercules and the constellation Scorpio as well as toward Laniakea Supercluster in the constellation Centaurus but if we talk of the dimensions of the path traced by the moon in space — movement of the Sun (along with its all planets) toward these constellations may be overlooked.