Big Bang Theory: How Could Something Without Part Erupt?

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Discussion Overview

The discussion revolves around the conceptual challenges of the Big Bang Theory, particularly the notion of how something described as an infitesimally small point, which is dimensionless and without parts, could erupt to form the universe. Participants explore the implications of singularities, particle production, and the definitions of points in mathematics and physics.

Discussion Character

  • Debate/contested
  • Conceptual clarification
  • Exploratory

Main Points Raised

  • Some participants question how an infitesimally small point, defined as dimensionless and without parts, could erupt to create matter composed of finite parts.
  • Others point out that point particles in the Standard Model, such as electrons and quarks, can interact and produce other substances, suggesting a potential parallel to the Big Bang.
  • It is noted that the Big Bang Theory does not address the specifics of what caused the initial singularity or how it functioned, focusing instead on the universe's expansion from a hot, dense state.
  • Some participants argue that the laws of physics break down at singularities, making them irrelevant to the Big Bang Theory.
  • There is a discussion about the relationship between singularities and particle pair production, with some asserting that the two phenomena are fundamentally different.
  • One participant suggests that the concept of infinite energy and density at a singularity may resolve some of the concerns raised, while others emphasize the need for a quantum theory of gravity to fully understand these issues.
  • Another participant attempts to explain how particles can emerge from seemingly nothing through balance in particle properties during collisions.

Areas of Agreement / Disagreement

Participants express a range of views, with no consensus reached on the nature of singularities, the validity of the Big Bang Theory's assumptions, or the relationship between mathematical definitions and physical reality. The discussion remains unresolved regarding the implications of these concepts.

Contextual Notes

Participants highlight limitations in understanding the Big Bang and singularities, noting that current theories may not adequately address the conditions at or before the Big Bang. There is also mention of unresolved mathematical steps and the dependence on definitions in the discussion.

stevenbhester
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If it was an infitesimally small point, then the composition of said infitesimal point would be dimensionless, and by definition without part. How could something without part erupt? I understand that an infitesimal point could form a substance if there is an infinite amount (in fact, any amount) But how it could make amtter composed of a finite amount of parts is illogical to me.
 
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stevenbhester said:
If it was an infitesimally small point, then the composition of said infitesimal point would be dimensionless, and by definition without part. How could something without part erupt? I understand that an infitesimal point could form a substance if there is an infinite amount (in fact, any amount) But how it could make amtter composed of a finite amount of parts is illogical to me.

Do you have the same complaint with electrons, quarks, etc. as well? After all, within the Standard Model, those are considered as point particles. Yet, we have seen them collide and produced a gazillion mess of other "substance". An electron in a condensed matter system (i.e. the materials you use) can, by itself, cause a whole lot of other higher-order virtual interactions.

Zz.
 
stevenbhester said:
If it was an infitesimally small point, then the composition of said infitesimal point would be dimensionless, and by definition without part. How could something without part erupt? I understand that an infitesimal point could form a substance if there is an infinite amount (in fact, any amount) But how it could make amtter composed of a finite amount of parts is illogical to me.

Nobody says that this is what happened. The current Big Bang theory does not address what banged, how it banged, why it banged, etc. Physicists have long believed that there is a physical problem with the singularity you are describing. The Big Bang theory is the cosmological model for describing the emergence of the universe out of a hot, dense, early state, and nothing more. At this task it has proven fantastically successful.
 
stevenbhester said:
How could something without part erupt? I understand that an infitesimal point could form a substance if there is an infinite amount (in fact, any amount) But how it could make amtter composed of a finite amount of parts is illogical to me.

I agree with you. If a point has no part than, according to me, there is no way it can erupt. Also in mathematics the definition of a point says that it only has location
 
rajkaj123 said:
I agree with you. If a point has no part than, according to me, there is no way it can erupt. Also in mathematics the definition of a point says that it only has location

The laws of physics break down when you try to apply them to a singularity, so it is not relevant to the big bang theory, which is only concerned with non-point things. If you go back that far there is no theory.
 
You could use a similar argument for the production of particle pairs out of the vacuum.
But it happens.
 
Wait...what do singularities and particle pair production have to do with each other?
 
The argument seems to be that a thing without a 'part' can not 'erupt' out of nothing.
Also dragging in the red herring that "mathematics says". What happens in mathematics may or may not happen in the real world.
Particle pairs can and do appear out of nothing, provided enough energy is available, or is borrowed from the vacuum.
This may or may not be similar to the appearance out of nothing but energy of the big bang matter.
was the big bang a singularity ? depends on your definition.
Was it a hugely powerful single string. Are singularities strings ? - who knows.
 
The big bang singularity does not depend on 'your definition'. It is a mathematical artifact of the fact that when you take the [tex]t \rightarrow 0[/tex] limit of the Friedmann universe, you reach zero scale in finite time. No practicing physicist attributes any physical reality to this singularity. Ditto for the Schwarzschild singularity. A singularity is by definition 0-dimensional, so I don't see the connection to strings. The production of particles from the vacuum is an entirely different phenomenon. Particles that fluctuate out of the vacuum in flat space always return to the vacuum by virtue of the Heisenberg principle. This is a well-defined mathematically and is physically consistent (and even experimentally confirmed in certain cases). So, I disagree with this connection. I think we are getting astray from the OP's question, which I think has been satisfactorily answered -- it's meaningless to argue about singularities -- they don't exist. Attempting to make contact with pair production serves only to confuse this thread.
 
  • #10
map19 said:
The argument seems to be that a thing without a 'part' can not 'erupt' out of nothing.

Nobody is saying that "something" erupted from "nothing". The term "big bang theory" is synonymous with saying that the universe was once a lot hotter and denser than it is today and it has expanded from that previous state. Thinking of things the other way around is not correct.

Also dragging in the red herring that "mathematics says". What happens in mathematics may or may not happen in the real world.

Exactly, and it is simply the mathematics of tracking the evolution of the universe back in time that produces this singularity at an initial time. However, this singularity is really just taken to show us that our model breaks down at that point.

As for your analogy with particle pair production, I'm at a loss as to how that is relevant.
 
  • #11
what you're saying isn't false but not fully true. That point contains infinite amount of energy and the density of that point is also infinite. this is the answer of your problem with the view of classical physics or by relativity which predict singularities.
However in quantum physics no absurdes like singularities accur. It said that there may be quantum fluctuations. you must have to wait for "quantum theory of gravity" for a correct solution of your problem.
 
  • #12
From what I understand, when two particles collide or combine, all they have to do is "balance." A photon had a mass of 0, lepton # 0, and baryon #0. (0,0,0) When two photons collide (0,0,0) + (0,0,0) they can make any particles that equal this, for example (0,-1, 1) and (0,1,-1).

Now I'm not sure if this answers your question at all, but it hopefully helps you understand how something is created from seemingly nothing. I remember this from Asimov's "Science, Numbers, and I," which I highly suggest reading if you're like me and don't have much of a physics background yet.
 

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