The Big Bounce theory suggests that the universe expands and contracts in a continuous cycle, with each cycle ending in a "big crunch" followed by a new "big bang." This theory is an alternative to the Big Bang theory and proposes that the universe has no beginning or end.
Now How Would We Know EXACTLY How Big It Is And/Or Was?! We Aren't That Clever You Know! ¬¬ Go Ask Alister... The big bang is still happening today, as the universe is still expanding. So the answer to this question depends on the timeframe. The big bang is as big as the universe is today. Before the big bang when all matter was contained in a singularity it was no bigger than a few microns across. Five minutes after the big bang the entire universe was the size of a golf ball. This might not seem big after five minutes, but to go from the size of a few microns to a golf ball is like going from New York to Pluto in 5 minutes.
Cycles play a crucial role in various processes in the universe by regulating energy transfer, matter distribution, and chemical reactions. For example, the water cycle on Earth helps to replenish freshwater sources, while the carbon cycle regulates the levels of carbon dioxide in the atmosphere. Overall, cycles sustain the balance and dynamic nature of the universe's systems.
The Big Bang theory does not make claims about the ultimate fate of the universe. It describes the origin and evolution of the universe from its early hot and dense state to its current form. The fate of the universe is a topic explored in cosmology beyond the scope of the Big Bang theory.
The Big Bang Theory was developed by scientists based on observations of the expanding universe, the cosmic microwave background radiation, and the abundance of light elements in the universe. By studying these phenomena and applying principles of general relativity, they were able to form a comprehensive explanation for the origin and evolution of the universe.
well, the big bang is really not true there couldn't be a big bang or else a whole new universe would start again.but....if there was by chance the big bang would happen then it would swallow up all the planets and every thing around it starting a new universe(we would all be dead)
The Big Bang Theory is important as it is the framework for understanding the Universe. The framework holds observations together and explains new observations.
The steady state model assumes that new matter is created at the universe expands, the big bang theory states that no new matter is ever created, but only changes form.
Maybe. When all of humanity is wiped out god will create a new universe
The Big Bang Theory and the revised Steady State Theory are similar in that they are both in compliance with the Cosmological Principle, which states that the Universe is homogeneous and isotropic in Space and Time, and the concept of an expanding universe. The Big Bang Theory and the revised Steady State Theory are different by virtue of their proposed models. The Big Bang supports interpreted observational evidence for an evolutionary expansion of the universe and rationalization for a finite age of the universe. The revised Steady State Theory promotes that new matter and energy are continuously created as the universe expands and the rationalization for an ageless universe.
The Big Bounce theory suggests that the universe expands and contracts in a continuous cycle, with each cycle ending in a "big crunch" followed by a new "big bang." This theory is an alternative to the Big Bang theory and proposes that the universe has no beginning or end.
During a big crunch scenario, if the collapsing universe halted and rebounded due to quantum effects or other unknown forces, it could potentially lead to the creation of a new universe. This new universe would emerge from the remnants of the previous universe, possibly with different physical constants or properties, giving rise to a fresh cosmic cycle.
First, we have no information on whether the universe will end, or if it will continue in perpetuity. It's either one or the other - and yet either answer would be astonishing. Second, we have no idea how the end of the universe might come about, or what the conditions at the end time would be, or if the concept of "after the end of the universe" has any meaning at all. One interesting concept is that of an oscillating universe; a Big Bang of expansion, with gravity overcoming everything in the end and pulling every shred of matter back to itself in a "Big Crunch". This could be the prelude to another "big bang". Each universe would be completely new and unaffected by the last.
Now How Would We Know EXACTLY How Big It Is And/Or Was?! We Aren't That Clever You Know! ¬¬ Go Ask Alister... The big bang is still happening today, as the universe is still expanding. So the answer to this question depends on the timeframe. The big bang is as big as the universe is today. Before the big bang when all matter was contained in a singularity it was no bigger than a few microns across. Five minutes after the big bang the entire universe was the size of a golf ball. This might not seem big after five minutes, but to go from the size of a few microns to a golf ball is like going from New York to Pluto in 5 minutes.
Cycles play a crucial role in various processes in the universe by regulating energy transfer, matter distribution, and chemical reactions. For example, the water cycle on Earth helps to replenish freshwater sources, while the carbon cycle regulates the levels of carbon dioxide in the atmosphere. Overall, cycles sustain the balance and dynamic nature of the universe's systems.
The Big Bang theory does not make claims about the ultimate fate of the universe. It describes the origin and evolution of the universe from its early hot and dense state to its current form. The fate of the universe is a topic explored in cosmology beyond the scope of the Big Bang theory.
The Big Bang Theory was developed by scientists based on observations of the expanding universe, the cosmic microwave background radiation, and the abundance of light elements in the universe. By studying these phenomena and applying principles of general relativity, they were able to form a comprehensive explanation for the origin and evolution of the universe.