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Big Bang

The Big Bang theory is an effort to explain what happened at the very beginning of our universe. Discoveries in astronomy and physics have shown beyond a reasonable doubt that our universe did in fact have a beginning. Prior to that moment there was nothing; during and after that moment there was something: our universe. The big bang theory is an effort to explain what happened during and after that moment.

According to the standard theory, our universe sprang into existence as "singularity" around 13.7 billion years ago. What is a "singularity" and where does it come from? Well, to be honest, we don't know for sure. Singularities are zones which defy our current understanding of physics. They are thought to exist at the core of "black holes." Black holes are areas of intense gravitational pressure. The pressure is thought to be so intense that finite matter is actually squished into infinite density (a mathematical concept which truly boggles the mind). These zones of infinite density are called "singularities." Our universe is thought to have begun as an infinitesimally small, infinitely hot, infinitely dense, something - a singularity. Where did it come from? We don't know. Why did it appear? We don't know.

After its initial appearance, it apparently inflated (the "Big Bang"), expanded and cooled, going from very, very small and very, very hot, to the size and temperature of our current universe. It continues to expand and cool to this day and we are inside of it: incredible creatures living on a unique planet, circling a beautiful star clustered together with several hundred billion other stars in a galaxy soaring through the cosmos, all of which is inside of an expanding universe that began as an infinitesimal singularity which appeared out of nowhere for reasons unknown. This is the Big Bang theory. Big Bang Theory - Common Misconceptions

There are many misconceptions surrounding the Big Bang theory. For example, we tend to imagine a giant explosion. Experts however say that there was no explosion; there was (and continues to be) an expansion. Rather than imagining a balloon popping and releasing its contents, imagine a balloon expanding: an infinitesimally small balloon expanding to the size of our current universe.

Another misconception is that we tend to image the singularity as a little fireball appearing somewhere in space. According to the many experts however, space didn't exist prior to the Big Bang. Back in the late '60s and early '70s, when men first walked upon the moon, "three British astrophysicists, Steven Hawking, George Ellis, and Roger Penrose turned their attention to the Theory of Relativity and its implications regarding our notions of time. In 1968 and 1970, they published papers in which they extended Einstein's Theory of General Relativity to include measurements of time and space.1, 2 According to their calculations, time and space had a finite beginning that corresponded to the origin of matter and energy."3 The singularity didn't appear in space; rather, space began inside of the singularity. Prior to the singularity, nothing existed, not space, time, matter, or energy - nothing. So where and in what did the singularity appear if not in space? We don't know. We don't know where it came from, why it's here, or even where it is. All we really know is that we are inside of it and at one time it didn't exist and neither did we.

Big Bang Theory - Evidence for the Theory

What are the major evidences which support the Big Bang theory?

* First of all, we are reasonably certain that the universe had a beginning.

* Second, galaxies appear to be moving away from us at speeds proportional to their distance. This is called "Hubble's Law," named after Edwin Hubble (1889-1953) who discovered this phenomenon in 1929. This observation supports the expansion of the universe and suggests that the universe was once compacted.

* Third, if the universe was initially very, very hot as the Big Bang suggests, we should be able to find some remnant of this heat. In 1965, Arno Penzias and Robert Wilson discovered a 2.725 degree Kelvin (-454.765 degree Fahrenheit, -270.425 degree Celsius) Cosmic Microwave Background radiation (CMB) which pervades the observable universe. This is thought to be the remnant which scientists were looking for. Penzias and Wilson shared in the 1978 Nobel Prize for Physics for their discovery.

* Finally, the abundance of the "light elements" Hydrogen and Helium found in the observable universe are thought to support the Big Bang model of origins. Answer

It is difficult to "look back into time" and answer a question like this. There are several different ideas floating among astrophysicists. The idea of strings as a source for the Big Bang is one hypothesis, but is currently untestable. The lion's share of the ideas we have concerning the origin of the universe at time zero are all based in mathematical models. Multi-dimensional manifolds set out what happened the instant space and time began to be created here and spacetime unfolded into the universe we know today.

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For all the tap dancing, posturing and brilliant calculations being put forth, the short answer in that no one has the faintest idea. Something does not suddenly appear from nothing. Either the universe has always been here or it had a beginning. If it had a beginning than a split second before this there had to be nothing. Some say it must have been God others, particularly scientists, avoid the question rather doggedly. What we do know is that something can not suddenly appear where there is nothing, at least not with our current knowledge.

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I've become very religious as a result of studying the universe.

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It could be anything that caused this singularity (and how it came to be), even beyond our wildest imagination (may be or may not be a God/Gods, could be something else that we don't even know yet for sure, no one will know unless maybe you time travel back to the origin or bend the laws of Physics and travel even before that and return back to present time safely in one piece or find a way to communicate with present time across time and space)

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7y ago
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10y ago
How We Came To Be Here

Scientists call the Big Bang a theory, rather than a hypothesis, because it is the best explanation for the facts as we have them. The next stage, if scientists ever get there, is for it to become a law - because there would ostensibly be a long history of unrefuted evidence. Even the hardest scientists would do well to consider 'proof' an elusive goal, and quite possibly a goal that can never really be reached.

If true, the Big Bang applies equally to all people regardless of faith. There was a Big Bang, and over billions of years the universe formed, the earth coalesced, life began and evolution took over, until we have the life forms we have today. Faith based systems usually include a creation event; systems not involving a faith element are usually content to watch knowledge develop and deepen over time. The only difference is whether there was divine intervention.

As to where the materials came from, before there were materials (in other words atoms and molecules), there were subatomic particles. And before there were subatomic particles, there was pure energy. We know we can convert energy into matter and back again - the only requirement being that it is done in accordance with the laws of conservation.

One hypothesis, consistent with all current knowledge, is that the primal energy came from a false vacuum that formed by means of a random quantum fluctuation.

Another Answer

I don't know. Isn't that elegant? I think one day we will know, and I have my own ideas, but at this time, we just don't know. Faith-based systems usually include some assurance of a creation event; secular systems do not operate from a position that creation is a given that must be accommodated by any subsequent explanation.

And Another

One of the hardest things to comprehend and reconcile in cosmology is the 'free lunch' factor - how it comes to pass that the universe can get something for nothing; how it can go from not existing, to existing; how matter or energy can come into being from its former non-existing state. To be fair though, cosmology is not the only worldview suffering from this dilemma. Any account of supernatural creation, also leaves the existence of its creator unexplained. Even then, it has resorted to the assumption that supernatural powers exist and natural laws are subject to inexplicable violations.

For any sensible secular attempt to explain the origins of the cosmos, we must proceed from what is known and seek to explain what is unknown without ceding to assumptions or contradictions. A good starting point is to observe that the universe does indeed exist. If it didn't we wouldn't be here contemplating it. It then follows that something had to begin existing or else we must assume that something existed for an eternity into the past. [The assumption that there can be no physical reality extending into the indefinite past may be a human bias based in our innately illogical wiring.]

The eternity idea, when applied to cosmological science, seems to be irreconcilable with direct evidence. The universe does appear to have a finite beginning in the past. This so called 'Big Bang' is much more subtle than our intuitive imaginations tend to picture it. It is not simply matter exploding into a preexisting void.

The big bang was actually predicted by Einstein's theory of relativity, in which time and space are aspects of the same thing 'spacetime'. The implications of this are less intuitive than most people realize. To have an appreciation of cause and effect, so that we can say "this was caused by that" we also rely on a concept of linear time, because each effect must be preceded by a previous cause. The perfectly sensible question of "but what caused that?", ultimately leading to the current question regarding the cause of all the matter in the universe, relies on the assumption that time existed before that matter. OK, it did, but the matter is only a manifestation of energy (again according with relativity), but that just pushes the question back to "where did the energy come from?" What is needed is a primal cause of all causes. Unless time itself breaks down and the concepts of 'before' and 'after' become meaningless.

When cosmologists say that the universe is expanding, they do not mean that the galaxies are rushing into a preexisting void. What they mean is that spacetime itself is expanding and increasing the relative distance between galaxies like raisins in an expanding raisin loaf. The implications of relativity for the big bang, is that time and space are properties of the universe that themselves began with the big bang. In conceptual thought and natural language this is hard to intuitively describe and comprehend, but in the language of mathematics, it seems the natural and inevitable consequence of the known evidence.

If the universe is expanding this way, then by running the clock backwards and inquiring into past epochs, we must conclude that the universe becomes smaller and smaller as we look further and further into the past. This is not hard to do in cosmology incidentally, because light travels at a finite speed and what we see from distant objects is delayed by the traveling time for light (approx. 300,000 km/sec).

The further away the object, the more ancient the light is that we are presently receiving from it. We are actually looking back through time as we look out through space.

Traversing the eons back through 13.7 billion years we come to a point where time and space cease to exist. Running the clock forward again we pass through a moment at the beginning of time where the universe is no bigger than an atom. At this point in history or prior, time and space become indistinct and it gets worse. Below the Plank constants, the entire universe is subject to quantum fluctuation. Quantum mechanics is another area that is full of counter intuitive but mathematically beautiful ideas.

So where did matter come from? It came from a free exchange with energy for particles. But as for the ultimate cause of all causes, we must assume that something was permitted to begin existing without cause, otherwise nothing could begin existing in the first place and at the first time. In this view, causality itself, was also born in the big bang. Without spacetime it is meaningless to speak about prior causes, because without spacetime, no linear progression of time from the past into the future is possible. It may be desirable to explain where this matter manifesting energy came from, but the question assumes that it is sensible and meaningful to ask a question about causality, in a situation where no prior causes are possible.

A relatavistic metaphor for this, honoring spacetime, is that below a certain size, the universe has no space for a past. Its entire volume was consumed at first by that primordial present moment. The only reason it found room for a future, is by expanding rapidly and dragging the present moment away from the past. The energy required to fund this expansion and the subsequent formation of matter is not justified by causality. because it existed at the birth of the universe, before which there was no time or causal relationships. On the other hand, the "free energy" can not be prohibited by causality either, as, by the same token, there were no causal relationships to prevent the "free energy" either.

Intuitively, we expect to find a cause for everything, but if we think about it carefully we must realize that this can not apply to absolutely everything. Something must initially exist without cause. There is no logical contradiction, or violation of natural law, if there is no natural law which prevents the spontaneous appearance of something. In our day to day lives at the human scale of existence, it would seem ludicrous for a chair to spontaneously pop into existence before our eyes. A chair is certainly the kind of object that must be made of other materials, by way of cause and effect relationships orchestrated by human minds. But what about a rock? again rocks are formed by geological processes, that have natural cause and effect relationships which in turn obey the laws of nature. We must then ask, how the rock manifested itself, bypassing the known laws of physics which create rocks.

Energy is much more nebulous and plastic. It is easily transformed from one state into another. We may use light to create electricity for instance, or heat to produce kinetic energy etc etc.. But ultimately we know that no energy is destroyed or created. it is just transformed from one form to another. This is called the principle of energy conservation. We know there are natural laws which make this principal inviolate. It is no coincidence of nature that energy can neither be destroyed or created. But those laws depend for their meaning an inviolability on cause and effect relationships within spacetime. No law was broken in the big bang, because no extra energy suddenly appeared in the universe, the energy appeared withthe universe.

We might like to know why the universe began at all. According to the modern understandings, it was neither compulsory or impossible, but how probable was it? This is also a moot point, because there may be multitudes of such universes. Given that spacetime is born into the universe, these universes would exist outside of our space and time coordinate system, so there would also be no meaning to whether they exist before, after, or simultaneously with ours. Remember this when you are tempted to think that our own existence is unfathomably improbable. However improbable anything in our universe may seem, given a potentially infinite number of possible universes some of them (perhaps scores of them), may quite easily have the quirky improbable characteristics we find in our own Universe.

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As alluded to above, there was no matter as we know it in the time leading up to the big bang, but there was a concentration of energy that began to expand at some point. After thinning and cooling, particles began to condense. The rest is history.

It is interesting that people usually have no problem accepting the possibility of time unfolding into an endless future, but have a huge difficulty going in the other direction. The problem may be that the idea of things existing into an endless past is beyond our intelligence, wit and imagination. This difficulty might arise because 'anthropomorphizing' cosmology is simply irresistable to us. We have a beginning, and many of us are sure that we will enjoy existence for endless future ages [alternately, we have difficulty accepting that our existence could somehow completely end], and so logic notwithstanding we conclude that the cosmos must be the same. In reality, our concept of an endless future is every bit as dim and unsupportable by observation as is our conviction that an endless past is utterly impossibe.

Some theorists are considering the possibility that our universe began at the collision of two nearby universes, mathematically constructed as 'membranes' [an offshoot of superstring theory]. There may be countless other universes, many or all of which overlapping with our own. They may simply exist within the folded dimensions locked in the quantum world of the tiny. Of course, this might not be the case, but there are mathematical models that support the possibility. It goes without saying that such models offer hope that we might speculate about conditions prior to the big bang, and that we might one day shed the taboo of the forever indefinite past.

False Vacuum

A natural scenario, that is not yet a scientific theory but is consistent with all current knowledge, explains the origin of our universe without the added hypothesis of supernatural creation:

By means of a random quantum fluctuation the universe 'tunnelled" from pure vacuum to what is called a false vacuum, a region of space that contains no matter or radiation but is not quite nothing. The space inside a bubble of false vacuum is curved, or warped, and a small amount of energy is stored in that curvature. This ostensible violation of energy conservation is allowed by the Heisenberg uncertainty principle for sufficiently small time intervals.

The bubble then inflated exponentially and its curvature energy transformed into matter and radiation. Inflation stopped and the more linear big bang expansion commenced.

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14y ago

Big bang theory isn't really based on a belief system but is a conclusion drawn from the observation of the universe; the universe can be seen to be expanding today, if you work backwards then it's concluded that at some point the universe was a singularity.

As to what was before the big bang, there are a number of suggestions; one is the universe will expand to a maximum then contract back down to singularity and another big bang will occur - this may have happened many times.

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14y ago

It is not known exactly what caused the Big Bang. It is known that at a moment known as the "Big Bang" the Universe was incredibly dense and hot; but it is not known what caused this, or what happened before - in case there even was a "before" (it is usually believed that time itself started with the Big Bang).

There is no way that energy could appear from anywhere. God created it.

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13y ago

A theory suggests that the universe may be like a pulse that keeps on expanding and contracting. When the universe has no where else to expand to after the big bang, and the force of gravity brings it back into its original position, the point of singularity may happen again, from all the compressed material. Then the process starts again.

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12y ago

The Big Bang theory does not specify where the bang itself came from. It simply states that the Universe began as such.

The question where the bang itself came from it one that might very well never be answered, although there are hypotheses about it. These include the idea that our Universe is just a part of a bigger thing called a Multiverse, in such a system the big bang might be explained as same event happening in the Multiverse.

It should be noted that just because we cannot answer the question now, or perhaps ever, it does not mean the big bang has to have a divine origin. Think of it this way; if the Universe was created then what created its Creator? And if the Creator has existed forever, why not simply skip that step and say that the Universe existed forever? Also because the big bang was the start of time as we know it, it is difficult to define what we mean by forever.

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13y ago

According to the hypothesis (the "big bang" is too indefinite an idea to be called a "theory", but is better developed than a mere "speculation") there was nothing at all - not even the "nothing" - before the Big Bang. We have no idea what came "before", or even if the concept of "before" has any meaning.

In order to have come "from" someplace, there would need to have been a time and a place for it to have come FROM - and the big bang idea suggests that there was no "there" or "when".

Science does not have all of the answers. Anyone who says they - we - do is lying.

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11y ago

There are some theories, but it probably won't surprise you to learn that nobody knows the answer to that, yet.

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Q: If the Big Bang came from a singularity where did the singularity come from?
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Continue Learning about Natural Sciences

What is the beginning point of the big bang theory called?

the singularity


What do most scientists believe existed before the incident known as big bang?

Most scientists believe that an infinite dense singularity existed before the incident known as the Big Bang.


The Big Bang is regarded as the expansion of?

A singularity, made of unimaginably dense material.


Were there gamma rays in the singularity that gave rise to the big bang?

No; there would be no stars to produce the gamma rays.


What is the first dot of the big bang theory?

The Big Bang theory postulates that the universe is expanding from an extremely hot and dense state. It does not necessarily say that this state was a singularity - but a singularity would have been consistent with Einstein's relativity theory. If it was indeed a singularity, then it would have been much smaller than a dot; much smaller even then a proton. In fact, it would have had no size at all.

Related questions

What is the big bang theory density?

The Big Bang Theory states that the entire Universe came into being after rapidly expanding from a singularity of infinite density.


Is Big Bang and singularity possible?

The Big Bang almost certainly did occur.A singularity, on the other hand - whether it is the singularity of the Big Bang, or the singularity in a black hole - probably indicates that something is incomplete in our current understanding of physics.


What is the beginning point of the big bang theory called?

the singularity


What do most scientists believe existed before the incident known as big bang?

Most scientists believe that an infinite dense singularity existed before the incident known as the Big Bang.


Where did the big bang occurs?

There is not a theoretical way to determine "where" the Big Bang occurred. In point of fact,the idea of a "where" existing before time and space began hasno meaning at all. Since theoretically the Big Bang resulted from a singularity, then the where, when, how, and why ofour unfolding and evolvingSpaceTime continuum(or our traditional four dimensional universe) must be based from this pre-Big Bang singularity. You would need to approachsuch queries from the perspective of "what" isthis singularity.


Where did the big bang theory occur?

There is not a theoretical way to determine "where" the Big Bang occurred. In point of fact,the idea of a "where" existing before time and space began hasno meaning at all. Since theoretically the Big Bang resulted from a singularity, then the where, when, how, and why ofour unfolding and evolvingSpaceTime continuum(or our traditional four dimensional universe) must be based from this pre-Big Bang singularity. You would need to approachsuch queries from the perspective of "what" isthis singularity.


The Big Bang is regarded as the expansion of?

A singularity, made of unimaginably dense material.


What was contained in the singularity that gave rise to the Big Bang?

yourmom


How does the big bounce theory differ from the big bang theory?

in big bang theory the particles will just move away outside. while in big bounce, a stage will come when all the particles once again will form singularity as the result of big crunch. that's what i think.


According to the big bang theory the universe began as a?

'Singularity' ; a moment when energy exploded and matter was created.


How did the big bang come into existence?

When Matter and anti-matter collided the Big Bang came into existence. But something still remains a mystery that how did the Matter and anti-matter come.


How is the term 'singularity' defined?

A singularity is a point in space-time in which matter and energy are infinitely dense, as at the center of a black hole or at the moment of the Big Bang.