There's no fundamental reason it couldn't, but there aregood solid fundamental reasons we will probably never know one way or the other, the simplest one being that light from an infinite distance away would take an infinite amount of time to get here.
The universe expanding in all directions.
Spherecal symmetric objects are those that are that look the same in all directions. They continue to remain the same under rotation.
The cosmological principle is the working assumption in cosmology that matter and energy is distributed over the cosmos homogeneously and isotropically, when viewed on a large enough scale. Basically it means that wherever you are in the universe, and whatever way you look, you should see pretty much the same thing.
The concept you are referring to is known as the cosmological principle, which states that the universe is homogeneous (same in all locations) and isotropic (looks the same in all directions) on large scales. This principle forms the basis for our understanding of the large-scale structure of the universe and is a key assumption in cosmology.
True
Those two things are completely unrelated.The Universe looks the same in different directions.The Universe does NOT look the same at different distances. If you look at farther galaxies, in other words farther back in time, they look different than galaxies look now. If you look even further in time, at one time there weren't even any galaxies.Those two things are completely unrelated.The Universe looks the same in different directions.The Universe does NOT look the same at different distances. If you look at farther galaxies, in other words farther back in time, they look different than galaxies look now. If you look even further in time, at one time there weren't even any galaxies.Those two things are completely unrelated.The Universe looks the same in different directions.The Universe does NOT look the same at different distances. If you look at farther galaxies, in other words farther back in time, they look different than galaxies look now. If you look even further in time, at one time there weren't even any galaxies.Those two things are completely unrelated.The Universe looks the same in different directions.The Universe does NOT look the same at different distances. If you look at farther galaxies, in other words farther back in time, they look different than galaxies look now. If you look even further in time, at one time there weren't even any galaxies.
The cosmic microwave background radiation is visible in all directions because it represents the thermal radiation left over from the Big Bang. As the universe expanded and cooled, this radiation became uniform in all directions, making it observable from any location in the universe.
The concept of a center of the universe is not well-defined in modern cosmology. The universe is expanding uniformly in all directions, which means there is no specific central point. Each observer perceives themselves to be at the center due to the nature of the expansion.
There is no evidence that the universe has an outer edge. The universe is thought to be spatially infinite, meaning it goes on forever in all directions. Our observable universe is limited by the speed of light and the age of the universe, not by a physical boundary.
The cosmological principle states that the universe is homogeneous and isotropic on a large scale, meaning it looks the same in all directions and at all points. This principle shapes our understanding of the universe by providing a framework for studying its overall structure and behavior, helping us make sense of its vastness and complexity.
Wherever you are located, it seems as if you are at the center of the expansion.
It is the same everywhere and in all directions.