Is Universe Infinite?

Until we find or develop an intelligent extension scheme that we know physics can do, we just have the potential. The universe may exist forever, or it may be destroyed in a situation contrary to the Big Bang. However, current research indicates that the universe may be growing indefinitely.

Cosmologists are not convinced that the universe is infinitely vast. We know that the galaxies must be far farther away than we can see, but we do not know if the universe is infinite. We can see only part of the light that has reached us since the beginning of the universe, which means that we can (theoretically) perceive the universe with a radius of about 47 billion light-years. The atmosphere may not be perfect, but because of the relative speed of light, we can see only a part of it.

If the atmosphere were smaller, it would be 100 times larger than the horizon, which is the distance light travels from the Big Bang. If the universe is limited, then in a two-dimensional geometry it will look like a torus. This means if the universe is like a bull, light can have different ways of reaching the same place. On the other hand, if the universe were endless, we would not see any signs of this phenomenon.

But there may also be a limit, for the universe now may have a much larger but limited volume, and that volume will increase, so it will be truly endless shortly. Yes, it seems incredible that there is such an end to space. If we take everything that can be everywhere and time, then there is nothing but space. Even if you think that the universe has a limited limit, and you think about what is outside this volume, then everything outside should be included in the universe.

If the atmosphere is completely flat geometrically, then you can be infinite. If space is truly infinite, if you move from Earth, you will eventually reach a point where there is only one cubic meter of space. If the universe has infinite size, you don't have to worry about this paradox. Unless the inflation is real and the universe is born immeasurably larger, the universe must be infinitely larger.

If everything we know about the universe is based on how it has been expanded since the last big explosion, then questions about whether the universe is infinite and how vast it is are likely to be challenged. Joseph Silk Although we can show that the universe is flat with our background data of the cosmic microwave, we still do not know whether it is infinite or infinite. The lower limit of the universe is at least 11 trillion light-years in all directions, but it is still limited.

Current calculations show that the visible universe takes up 46.5 billion light-years across, and a total of 93 billion light-years. The visible universe can be thought of as a globe that stretches from outer space to a magnitude of 46.5 billion light-years, moving forward and moving forward over time, and shifting to a more reddish hue when viewed from a distance. If you could suddenly stop anywhere in the universe and look at the whole universe with magic, you would discover far more galaxies than we see today.

The universe contains everything that exists, from the smallest atom to the largest galaxy; since it was formed about 13.7 billion years ago in the Big Bang, it has grown and maybe infinitely wide. Indeed, we do not know the end of the end, but we do know more than what we see inside us. The portion of the earth that we see on Earth is equally full of galaxies, as we can see - over 10 billion light-years, or about 6 billion miles. There is a sphere, a cosmic horizon (13.8 billion light-years of light from the Earth in the modern era), otherwise, there is nothing even visible in order; and the number of galaxies (about 10 10) of the galaxies within this vast universe, is very small to make the night sky brighter.

Mentally, one can understand that the infinite universe has a limited volume, which, for example, in theory, can be filled with a limited amount of material, while the infinite universe is infinite and there is no numerical volume that can fill it. For example, a well-bent universe has an end. Any part of the fixed age universe (just recently since the Big Bang) will have a negative curve; this is a fictional Euclidean geometry fact, similar to the fact that the spheres are centered on the flat Euclidean space are curved anyway.

The Hyperbolic Universe, characterized by a negative curvature of the space, is defined by hyperbolic geometry and can be viewed locally as a three-dimensional analog of an infinitely expanded seat. Astronomers have suggested that the universe is approximately one-third of the time, depending on the position of the atmosphere.

The evolving theory of the universe states that the universe can be extended indefinitely [equivalent to a flat universe]. The idea that space is growing is a prediction of Einstein's theory of gravity, which describes a simple but universal relationship between space, time, and story. In 1917, Einstein proposed a mathematical model of the universe in which the total volume of a sphere is limited but without limits or limitations. The model is based on his common relational theory, using common geometric methods developed by German mathematician Bernhard Riemann in the 19th century.

So some cosmologists, and I am one of them, come up with concrete models of limited space, but without limits, especially, in a unique way, that creates an optical illusion. The practice is therefore to believe that the universe is infinite, but what is truly interesting is that the new geometry established in the 19th century is called non-Euclidean geometry, or what we call topology, which is part of the geometry that attempts to understand the cosmos. Global Space - Recommends a compatible mathematical model for infinite space. These geometric models are fully compatible with all observations and are consistent with the cosmological solution of general relativity, known as the Big Bang model. This is an interesting concept of what we call multiverse, that is, the universe that we know, understand, and can measure and measure in terms of parameters, age, and size - a very clear example. In ensembles, all of this is due to what we call quantum fluctuations in vacuum energy.