Is the Conservation of Mass/Energy Challenged by the Big Bang Theory?

  • Thread starter Robert J. Grave
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In summary, the Big Bang theory proposes that our universe was once in a hot and dense state, but the physical laws under such extreme conditions are still unknown. The idea of the "universe from nothing" is a speculative concept and not a part of the Big Bang theory. Some theories suggest that the energy of matter in the universe is balanced by the negative potential energy of gravity, but this is still a subject of debate. The concept of a singularity in the early universe is a consequence of applying the incorrect theory of gravity, General Relativity, to such extreme conditions. The Big Bang theory is a scientific explanation for the origin of the universe, but the idea of "something from nothing" is not a violation of the conservation of mass/
  • #1
Robert J. Grave
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Isn't the big bang, the universe from nothing, a violation of the consevation of mass/energy since mass/energy can not be created or destroyed?
 
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  • #2
i'm a super newbie to physics but i thought there wasnt a conservation of mass concept, because doesn't mass increase with speed (but only noticable at near speed of light speeds)?

also, i not sure on the whole big band thing, but i recall hearing something about the laws of physics breaking down at a singularity...

please,someone correct me if I am wrong, since i only 16 and done school based physics.
 
  • #3
May be you have heard about Alan Guth's quote that the universe might be "the ultimate free lunch". He proposed the idea that the energy of matter in the universe may be compensated by the potential energy of the gravitational field (which is negative for Newtonian potentials). This, however, is a very speculative idea and cannot be rigorously formulated, basically due to one main problem: we still lack of a clear definition of energy of the gravitational field in general relativity. Eventually, a theory that describes the origins of the universe and accounts for the true degrees of freedom of gravitation (beyond its classical regime) might provide an answer to that question.
 
  • #4
Robert J. Grave said:
the big bang, the universe from nothing
The Big Bang theory says that our universe once was in a very hot and dense state. What happened before that is open for speculation, since we do not know what physical laws hold under such extreme conditions. The quote "universe from nothing" mearly sounds like some creationism propaganda (i.e. something made up by people who have no clue what the Big Bang theory is about...)
 
  • #5
The big bang therory, I understand, states that the universe began as a singularity at extreme tempatures and expanded from there. If it 'began' than it came into being. Isn't that something from nothing? I have a problem with the idea of something from nothing. It violates the basic physical experience of no creation and no destruction of mass/energy. The conservation of mass/energy.
The 'free lunch' is the idea that gravity exactly balances all other energy in the opposing direction making the net energy of the universe = to 0, an idea I feel may be correct. The expansion barrowed it's energy from gravity. Gravity would cause the universe to contract back to the same state as the 'big bang' after the stars burnt out and the expansion stopped leaving the only energy gravity. And ,maybe at some critical density, the expansion would began again, resulting in an endless cycle of expansion followed by contraction and so on. That would end the problem of 'something from nothing' since it would be a continuance, not a beginning. Maybe that is what the universe is. Hawking's ' No Boundry Proposal ' has the collapse following the end of the expansion as part of his therory but does not propose the occilation of the universe, but others have. Who knows? I just like to see the 'laws' we observe not be violated in any therory. So, the universe 'begining' at the big bang sounds like a violation of the conservation of mass/energy. Can anyone explane why it is not?
In relativity the mass increase is the observed mass between frames of referance in relative mothion and is recipical. The rest mass remains constant. There has never been an observed violation of conservation nor a theoretical demonstration of it.
 
  • #6
Robert J. Grave said:
The big bang therory, I understand, states that the universe began as a singularity at extreme tempatures and expanded from there.
The singularity is a consequence of GR, which we know is not a correct description of gravity under such extreme conditions. For that we need a quantum gravity theory, something we're still looking for. The singularity is hence just an artefact of applying a physical theory (GR) in a place (early universe) where it does not hold very good.
For more about Big Bang see e.g. http://en.wikipedia.org/wiki/Big_Bang
wiki said:
the Big Bang is the scientific theory that the universe emerged from a tremendously dense and hot state about 13.7 billion years ago.
 
  • #7
EL said:
The Big Bang theory says that our universe once was in a very hot and dense state. What happened before that is open for speculation, since we do not know what physical laws hold under such extreme conditions. The quote "universe from nothing" mearly sounds like some creationism propaganda (i.e. something made up by people who have no clue what the Big Bang theory is about...)

Unfortunately however, it has slipped into physics/cosmology, and was introduced by Vilenkin as a 'viable model' (tunneling of the universe from "nothing").

I can't provide a link to the original paper by Vilenkin (which is: "Vilenkin, A. (1982), "Creation of Universes from Nothing", Physical Letters 117B"), it doesn't appear to exist on the internet.

Philosophically speaking, it makes no sense(*). I would argue also, it is not physics, since physics describes how the universe from one state of existence transforms into another state of existence, and always describes an existing universe (which is some form of matter in motion requiring space and time).

Further, one can not call this (the supposed 'becoming' of the universe "from nothing") a begin, since a begin (of something) is just comparing two existing states, one after another, and claim that in the first state that something did not exist, and did exist in the second state. Since there is no prior state, the whole thing becomes meaningless, and contains an impossibility. (see also the philosophical note below).

---------------------------

(*)
The reasoning behind it is that - as Hegel showed - being and non-being can not be treated as absolutely seperate notions, but always and only belong together in their (dialectical) union which is becoming (or ceasing to be). What we always see is that in any process, in which something (some configuration or state of matter) changes into something else, being and non-being belong to each other, since one changes into the other. Like for example a massive gas cloud of Hydrogen, due to gravitational collapse, become a new star, and the being of the star anulls it's non-being, and at the same time the being of the gas-cloud is anulled (since it is no longer a gas cloud but a star).

If you treat them (being and non-being) as totally separate notions (having nothing to do with each other, that is: denying that they are effectively together and can not be seperated), then the becoming is anulled (made impossible). So a becoming or begin of something in or from nothing is therefore an impossibility. See: Incomprehensibility of the Beginning.

------------------------

And another note:

What do we mean by "existence"? It can be shown that there is no such thing as "absolute" existence, all existence is relative. What I mean is this: for me (an observer) an apple exist, and for the apple it is the case that I exist, since there can be objective relations between me and the apple (the apple can fall on my head/I can eat the apple).
But for the universe, it is obvious that there can not be anything outside and apart of it, the universe has no object outside of it, neither is there an object that has the universe outside and apart of it.
This therefore means that it is meaningless to state that the universe exists in the objective sense, since there can not be any objective relations for the universe.

[the only way in which it can be done, is by just postulating that there is a multiverse or higher order universe, of which the universe is part, but that is only shifting the problem to some higher realm, the issue remains effectively the same].
 
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  • #8
heusdens, Vilenkin does not use the term "nothing" to mean nothing at all (as done in philosophy), but to describe a state of vanishing classical space. Take a look to this post and the link there.
 
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  • #9
hellfire said:
heusdens, Vilenkin does not use the term "nothing" to mean nothing at all (as done in philosophy), but to describe a state of vanishing classical space. Take a look to this post and the link there.

I can't access the original paper, so I don't know what he means with "nothing".

A "nothing" as a physical state would mean the absence of a topology, not even having points in space...

Well, I only reason that it would not make any sense to assume a universe "coming into existence" from such an absent state.

PS. Does anyone have this original paper by Vilenkin (1982).

If "nothing" really means a (classical or whatever) space with a defined metric and with some fields in them existing, then such is not "nothing", and it would be confusing to call that state "nothing".
 
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  • #10
My 2 cents -- Really -- the first 100 to 1000 seconds of existence are pure theory/speculation anyway. Anyone who is trying to explain the universe before that time is selling something! Because we don't have a good understanding of the physics at those extreme conditions, there is no way to say what the universe was doing before that point. Was it nothing, was it something, was it whatever -- all these questions can be asked, but to say for sure it was one way or another is pretty much a guess.
 
  • #11
wxrocks said:
My 2 cents -- Really -- the first 100 to 1000 seconds of existence are pure theory/speculation anyway. Anyone who is trying to explain the universe before that time is selling something! Because we don't have a good understanding of the physics at those extreme conditions, there is no way to say what the universe was doing before that point. Was it nothing, was it something, was it whatever -- all these questions can be asked, but to say for sure it was one way or another is pretty much a guess.

I think you're way too pessimistic here. I would say we have very good control of what's happening from 1 second and on, when the BBN started.
From the electroweak epoch (~10^-12 seconds) we have fairly well motivated theories, even though the details are unknown. The inflation scenario is more or less speculation, even though there are good reasons that it must have occured. What happened before inflation is mainly speculations.
For a timeline see:
http://en.wikipedia.org/wiki/Timeline_of_the_Big_Bang
 
  • #12
Inflation is past time eternal in the sense that 'once' it occurs, it can go on forever, which also leads to the conclusion, it didn't have to start at some time.
 
  • #13
heusdens said:
Inflation is past time eternal in the sense that 'once' it occurs, it can go on forever, which also leads to the conclusion, it didn't have to start at some time.

True, and that's why it has become common to set t=0 at the end of inflation, when all matter was created through the reheating. When we say the universe is 13,7 billion years old, we really mean inflation (or some other process creating all matter) ended 13,7 billion years ago.
 
  • #14
But to go back to the topic (conservation of mass/energy) how does inflation treat these? I assume the conservation of mass/energy is still valid under inflation?
 
  • #15
heusdens said:
But to go back to the topic (conservation of mass/energy) how does inflation treat these? I assume the conservation of mass/energy is still valid under inflation?
In general, the conservation equation that applies in cosmology follows from the divergenceless energy-momentum tensor of a perfect fluid that describes some of the components of the universe:

[tex]\partial_0 \rho + 3H(\rho + p) = 0[/tex]

During inflation the energy density of the scalar field that drives inflation remains constant, but [itex]p = - \rho[/tex] and the equation is satisfied.
 
  • #16
hellfire said:
In general, the conservation equation that applies in cosmology follows from the divergenceless energy-momentum tensor of a perfect fluid that describes some of the components of the universe:

[tex]\partial_0 \rho + 3H(\rho + p) = 0[/tex]

During inflation the energy density of the scalar field that drives inflation remains constant, but [itex]p = - \rho[/tex] and the equation is satisfied.

Yes, but if an inflating region keeps it energy density while growing exponentially, this means that there is going to be more energy.
 
  • #17
This is correct, but as mentioned in general relativity the conservation law applies for the energy-momentum tensor but not for always for its 00 component. There are very long old threads about this topic of energy conservation in GR here in PF.
 
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  • #18
I've never really got why the concept of energy conservation is that important. After all, "energy" is a quantity we define in such a way it will be conserved!
For example:
We first define energy of an object to be mv^2/2.
Then we discover this quantity isn't really conserved when the object is moving in a gravitational field. Hence we redifine energy by adding a gravtitional potential so that energy indeed will be conserved.
After being happy with that for a while, we notice friction, and once again redefine energy by including heat, etc.
In the same manner we go on including electromagnetic field energy, sound energy, chemical energy, and so on...
Now, when looking at GR, we notice that energy (= 00-copmponent) isn't a conserved quantity, but instead we have a conservation law including the full energy-momentum tensor, i.e. the formula hellfire showed.
Since we really do not know what physical quantities are conserved at the scales of the extremely early universe, we don't know how to define energy at that time.
In my eyes, the question is hence not if energy is conserved, but how to define it to make it a conserved quantity...
 

1. What is the law of conservation of mass/energy?

The law of conservation of mass/energy states that mass and energy cannot be created or destroyed, only transformed from one form to another.

2. How is the law of conservation of mass/energy related to the first law of thermodynamics?

The first law of thermodynamics is a restatement of the law of conservation of energy, which is a part of the law of conservation of mass/energy. This means that in any energy transfer or transformation, the total amount of energy remains constant.

3. Can the law of conservation of mass/energy be violated?

No, the law of conservation of mass/energy is a fundamental principle of physics and has been observed to hold true in every known physical process. It is a universal law that cannot be violated.

4. Why is the law of conservation of mass/energy important in science?

The law of conservation of mass/energy is important because it allows scientists to make predictions about the behavior of physical systems. It also helps to explain the fundamental principles of energy, such as the conservation of momentum and the conservation of angular momentum.

5. Are there any exceptions to the law of conservation of mass/energy?

There are no known exceptions to the law of conservation of mass/energy in the observable universe. However, in the quantum world, there are some phenomena that may appear to violate this law, such as virtual particles that spontaneously appear and disappear. However, these particles still follow the law of conservation of mass/energy when taken into account with the entire system.

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