Possibly !... The 'problem' is - that we humans only have limited knowledge about the tiny bit of space we live in. There is absolutely no reason why other dimensions and time-lines don't exist - we simply have no way of knowing (currently) one way or the other.
You can say it. It's insipid, vague, and meaningless, but you can say it. "Relative" how? "Connected to one another" how?
A wormhole is the theory of space being connected from one spot to another that is normally far, far away.it's easy to comprehend in Star Trek Deep Space Nine.
In space for example.
with relative ease.
I know if the set A , the closure of A is connected sure A also connected but the converse Iam not sure
because the things in space are very weird looking. and the they are similar because the things in space have one more of everything. they are different because they are different shapes and sizes.
A fixed location in space can be represented by coordinates such as latitude and longitude on Earth, or by celestial coordinates like right ascension and declination in astronomy. These values provide a specific reference point in space that can be used to locate and navigate to a particular position.
An object that is stationary relative to Earth's surface is moving fastest relative to space at the Equator. This is because the Earth's rotation speed is greatest at the Equator, providing the highest linear velocity for an object on the Earth's surface.
The Space Needle is located in Seattle, Washington State.
TARDIS, normally, stands for TIME AND RELATIVE DIMENSION(S) IN SPACE, but, however, in the Christmas special "The Next Doctor" TARDIS stands for TETHERED AERIAL RELEASE DEVELOPED IN STYLE.
It is a vector that has the opposite direction to the reference positive direction. (A vector is one point in space relative to another.) Negative vector is the opposite direction
They use scientific notation because of the vast distances in space.
Scientists can determine Earth's speed through space by measuring its orbital velocity around the Sun, which is about 30 km/s (18.6 mi/s). Additionally, Earth's rotational speed at the equator is about 1670 km/h (1037 mph), contributing to its overall speed through space. These speeds are crucial for understanding Earth's dynamic motion within the solar system.