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Is the big bang theory provides adequate explanation for the formation of the universe?
Depends on what you mean by "formation."
Big Bang Cosmology (BBC) is the ONLY cosmology that explains what we actually observe about our Universe -- Hubble Expansion, cosmic microwave background radiation, ratio of decay isotopes to "parent" isotopes, etc. Proponents of all other cosmologies are forced to say, "I have no idea why we observe what we do -- it's just the way the Universe is, and I have no explanation for it."
However, BBC states ONLY that our total Universe was, about 13.8 billion years ago, infinitely more dense (note: NOT smaller!!) than it is today, and that space has been expanding ever since at a (more or less) uniform rate. It makes NO statement WHATSOEVER on what occurred prior to the start of this expansion (more precisely, after the end of Inflation). Scientists speculate on what occurred, but (as of now) there is no observational evidence to prefer one idea over another.
So, BBC is not only an adequate explanation for the formation and development of our Universe since the end of Inflation, it's the ONLY explanation that fits what we observe. However, it is not an explanation for what happened before then, and makes no pretense about doing so.
What else can I help you with?
How did cosmic background radiation relate to the formation of the universe?
Cosmic background radiation is the remnants of the Big Bang, the event that marked the beginning of the universe. It provides valuable information about the early conditions of the universe, helping us understand its formation and evolution. The uniformity and patterns in cosmic background radiation inform us about the distribution and structures of matter in the early universe, contributing to our understanding of its evolution over time.
What is the most likely explanation for the start of the universe?
The most widely accepted explanation for the start of the universe is the Big Bang theory. This theory suggests that the universe began as a singularity that rapidly expanded about 13.8 billion years ago, creating everything we see today.
What does cosmic background radiation change to the universe?
Cosmic background radiation provides important insights into the early universe, including its composition, density, and temperature. The presence of this radiation supports the theory of the Big Bang and helps explain the large-scale structure of the universe and the formation of galaxies. By studying cosmic background radiation, scientists can better understand the history and evolution of the universe.
What does a supernova provide for the universe?
A supernova provides several important things for the universe. It creates and disperses heavy elements like gold and uranium into space, contributes to the formation of new stars and planetary systems, and releases massive amounts of energy that can influence the surrounding galaxy.
Describes the beginning of the Big Bang Theory?
The Big Bang Theory is a scientific explanation for the origin of the universe. It suggests that the universe began as a singularity - a point of infinite density and temperature - around 13.8 billion years ago. The universe has since been expanding and cooling down, leading to the formation of galaxies, stars, and planets.
What does universal explanation mean?
a spiritual explanation that comes from the universe
Why is Einstein's theory of special relativity so important?
In certain areas, it provides a better explanation of how our Universe works than previous theories - an explanation that is in close agreement with experiment.
Does the big bang theory suggest the moment at which the earth formed?
No. The Big Bang theory is an explanation on the formation of the universe. Earth did not form until billions of years later.
How did cosmic background radiation relate to the formation of the universe?
Cosmic background radiation is the remnants of the Big Bang, the event that marked the beginning of the universe. It provides valuable information about the early conditions of the universe, helping us understand its formation and evolution. The uniformity and patterns in cosmic background radiation inform us about the distribution and structures of matter in the early universe, contributing to our understanding of its evolution over time.
When was the formation of the universe?
The Universe has an age estimated to be about 13.8 billion years.
The heat left over from the beginning of the universe?
The heat left over from the beginning of the universe is known as the cosmic microwave background radiation. It is a faint glow of radiation that permeates the entire universe and is a remnant of the Big Bang. This radiation provides important clues about the early universe and the formation of galaxies.
What describes scientists' best idea about the formation and expansion of the universe?
The Big Bang theory is currently the most widely accepted explanation for the formation and expansion of the universe. It proposes that the universe began as a singularity and has been expanding ever since, with galaxies moving away from each other. This theory is supported by observational evidence, such as the cosmic microwave background radiation and the redshift of distant galaxies.
What theory was proposed by Gamow and Lemaitre?
Abbe Lemaitre originally proposed that the universe began from a singular point. George Gamow expounded on the theory by proposing that the universe was extremely hot and dense at the time, and gave a possible explanation for the formation of elements from the point of the Big Bang.
What is the most likely explanation for the start of the universe?
The most widely accepted explanation for the start of the universe is the Big Bang theory. This theory suggests that the universe began as a singularity that rapidly expanded about 13.8 billion years ago, creating everything we see today.
What does the nebular hypothises explain?
the formation of the universe
How does the Big bang and god be explained?
The birth of the universe has been debated throughout the years and only one theory continues to persist, the the Big Bang. Using theories and observations from many scientists. the Big Bang provides a simplistic and logical explanation reguarding the orgin of the universe
What is a possible explanation for the formations of galaxies?
One possible explanation for the formation of galaxies is the Big Bang theory, which suggests that the universe began as a hot, dense state and has been expanding and cooling ever since. Smaller structures formed first, which eventually merged to form larger structures like galaxies due to the force of gravity. Another theory suggests that fluctuations in the early universe's density led to the formation of galaxy clusters and filaments, which eventually gave rise to galaxies.
