Why does the monopoles not exist

  • Thread starter Faraz Murtaza
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In summary: How's that relevant to whether magnetic monopoles exist or not? Whatever is the way you account it for you still can measure what is called sink and source, positive and negative, or north and south pole. The question I have for you is how many poles can you count on that image above of magnetic field due to moving charge, and can you point where is the south and where is the north pole?There are two fields in that image: the external field, which is the one we feel, and the internal field, which is the one that causes the charges to move. You can see that there are two poles: the north and the south pole.
  • #1
Faraz Murtaza
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why does the monopoles not exist
 
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  • #2


why should they exist?
 
  • #3


Monopoles do exist
 
  • #4


What kind of monopoles are we talking about?
 
  • #5


Electric monopoles do exist. Somehow, I feel the O:P asked about magnetic monopoles; a very common question.
 
  • #6


Electric Monopoles do exist, like Gordianus said. Assuming the OP is talking about Magnetic monopoles, why should they exist?

To rephrase: Even though there are theories that predict the existence of magnetic monopoles, the mainstream particle theories do not. Physically there is nothing wrong with their existence, but there is no reason for them to exist, either.
 
  • #7


Vorde said:
To rephrase: Even though there are theories that predict the existence of magnetic monopoles, the mainstream particle theories do not. Physically there is nothing wrong with their existence, but there is no reason for them to exist, either.

Huh? Monopoles are actually a fairly generic prediction of grand unified theories, from what I understand. It's actually a large conflict between theory and observation, since obviously we don't see any. This led, in part, to the development of inflation theory, which is more or less the standard paradigm for early universe cosmology (in one incarnation or another).
 
  • #8


I meant theories that are considered 'true' now, like QED and EWT (is that how it's called?), not GUTs. I was under the impression that currently verified theories do not predict monopoles, and the existence of monopoles in speculative TOEs and GUTs are one of their experimental testing points.

I see how that point of view did not get across in my earlier post.

Though I am confused as to how magnetic monopoles led to inflation theory?
 
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  • #9


Vorde said:
I meant theories that are considered 'true' now, like QED and EWT (is that how it's called?), not GUTs. I was under the impression that currently verified theories do not predict monopoles, and the existence of monopoles in speculative TOEs and GUTs are one of their experimental testing points.

Though I see how that point of view did not get across in my earlier post.

Though I am confused as to how magnetic monopoles led to inflation theory?

Well while it's true that we have no direct experimental verification of GUT scale physics, and likely never will, my point is that it seems a fairly generic prediction of what must be going on at those scales. This could be false, as I obviously haven't surveyed all theories claiming to describe these energy ranges, but I think it's fairly universal.

The reason this motivated inflation theory is precisely what I stated before. If you predict a monopole density which is much larger than the observed bounds (we do have some bounds), then that's obviously a contradiction. Either the theory is wrong, or the observations are flawed (not likely, given the magnitude of the discrepency). Now, as I've mentioned monopoles seem to be a fairly straightforward prediction of what's going on at GUT energies, so there's no clear way to get around producing them. The only way to lower the density, then, is to dilute them over a larger volume; this is precisely what inflation does.
 
  • #10


cronanster said:
What kind of monopoles are we talking about?

we are talking about magnet poles
 
  • #11


Vorde said:
Electric Monopoles do exist, like Gordianus said. Assuming the OP is talking about Magnetic monopoles, why should they exist?

To rephrase: Even though there are theories that predict the existence of magnetic monopoles, the mainstream particle theories do not. Physically there is nothing wrong with their existence, but there is no reason for them to exist, either.

what is OP?
CAN YOU PLEASE TELL
 
  • #12


Original Post or Original Poster. The first post in a thread or the person who made it.
 
  • #13


http://en.wikipedia.org/wiki/Amperes_Law
220px-Electromagnetism.svg.png



Magnetic field due to moving charge. Count the poles, and point out where is the north and where is the south pole.
 
  • #14


You don't actually need to 'have' magnetic fields at all. The force that we call magnetism can be accounted for by the relativistic effects on moving charges. None of it's real- it's just models and we choose the one that suits a situation best.
 
  • #15


sophiecentaur said:
You don't actually need to 'have' magnetic fields at all. The force that we call magnetism can be accounted for by the relativistic effects on moving charges. None of it's real- it's just models and we choose the one that suits a situation best.

How's that relevant to whether magnetic monopoles exist or not? Whatever is the way you account it for you still can measure what is called sink and source, positive and negative, or north and south pole. The question I have for you is how many poles can you count on that image above of magnetic field due to moving charge, and can you point where is the south and where is the north pole?
 
  • #16


My point was that an argument based on fields need not be totally valid (sufficient?) once you realize that the field concept is only a concept. I know that post of yours is a great way to show that monopoles "can't" exist, based on the model that field lines have no 'ends'. But field lines are only a construct to model what we observe. The question of the existence of the monopole may require more than a field line argument.
 
  • #17


sophiecentaur said:
My point was that an argument based on fields need not be totally valid (sufficient?) once you realize that the field concept is only a concept. I know that post of yours is a great way to show that monopoles "can't" exist, based on the model that field lines have no 'ends'. But field lines are only a construct to model what we observe. The question of the existence of the monopole may require more than a field line argument.

I'm not talking about "models" or "constructs". This is real.
Take a permanent magnet in your hand and you can measure it. Field lines have no ends?

250px-VFPt_cylindrical_magnet_thumb.svg.png
200px-VFPt_dipole_electric.svg.png

http://en.wikipedia.org/wiki/Magnetic_field

Do you see field lines start at north pole and end at south pole?Is this picture below of magnetic dipole?
Can you point where is north and south pole?

220px-Electromagnetism.svg.png
 
  • #18


The statement that field lines have no ends is identical to the statement that there are no monopoles. It's not an explanation.

Furthermore, all at Tris_d has shown is that in the situation he describes there are no monopoles, not that there are no monopoles anywhere.
 
  • #19


Ultimately the question is an experimental one. We can construct theories in which magnetic monopoles and monopole-type magnetic fields exist (for which ##\nabla \cdot \vec B \ne 0##). However, to date nobody has actually found such particles or fields. Maybe next http://www.nature.com/nature/journal/v429/n6987/full/429010a.html someone will actually detect them convincingly, and then we will have to rewrite Maxwell's equations etc.
 
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  • #20


Vanadium 50 said:
The statement that field lines have no ends is identical to the statement that there are no monopoles. It's not an explanation.

Furthermore, all at Tris_d has shown is that in the situation he describes there are no monopoles, not that there are no monopoles anywhere.

Actually, magnetic field due to moving charge looks like monopole to me. I see only one pole there and it certainly does not look like a dipole. I've been saying that for quite a few years now, but people are dismissing it and I never got any reasonable response. Could it be too simple to be believed, right under everyone's nose?

What do you think it is, a dipole?
 
  • #21


tris_d said:
Actually, magnetic field due to moving charge looks like monopole to me. I see only one pole there and it certainly does not look like a dipole. I've been saying that for quite a few years now, but people are dismissing it and I never got any reasonable response. Could it be too simple to be believed, right under everyone's nose?

What do you think it is, a dipole?

What does it mean that it looks like a monopole to you? Do you mean that you can show that the magnetic field here has a non-zero divergence?

Note that we have already seen situations that mimic a magnetic monopole from a spin ice system.

http://news.sciencemag.org/sciencenow/2009/09/04-01.html [Broken]

So we do know what it should look like if it occurs.

Zz.
 
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  • #22


ZapperZ said:
What does it mean that it looks like a monopole to you? Do you mean that you can show that the magnetic field here has a non-zero divergence?

Note that we have already seen situations that mimic a magnetic monopole from a spin ice system.

http://news.sciencemag.org/sciencenow/2009/09/04-01.html [Broken]

So we do know what it should look like if it occurs.

Zz.

It means that it does not look like a dipole, so what else could it be? Why would you expect anything, why not simply count? Just tell me, if you mean to say that it is not monopole, what is it then, is it a dipole?
 
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  • #23


tris_d said:
It means that it does not look like a dipole, so what else could it be? Why would you expect anything, why not simply count? Just tell me, if you mean to say that it is not monopole, what is it then, is it a dipole?

Er... This isn't based on a matter of TASTES! The distinction of something being a monopole will require a non zero divergence. You simply can't argue "oh it looks like a monopole to me". That is NOT a physics reason.

So I take it from your response that you had NEVER checked if the magnetic field divergence is zero? That is a very simple question that will say a lot.

Zz.
 
  • #24


tris_d said:
Field lines have no ends?

250px-VFPt_cylindrical_magnet_thumb.svg.png


Do you see field lines start at north pole and end at south pole?

The field lines continue through the magnet to form closed loops. See for example Fig. 27.13(a) here:

http://www.physics.sjsu.edu/becker/physics51/mag_field.htm

http://www.physics.sjsu.edu/becker/physics51/images/28_09_Magnetic_filed_lines.jpg
 
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1. Why do scientists believe that monopoles do not exist?

Scientists believe that monopoles do not exist because they have not been observed in experiments and their existence is not consistent with current theories and models of physics.

2. What is a monopole and why is it important?

A monopole is a hypothetical particle with a single magnetic pole, either north or south. It is important because its existence would provide evidence for some of the most fundamental theories in physics, such as Grand Unified Theories and the existence of extra dimensions.

3. Is there any evidence for the existence of monopoles?

No, there is currently no direct evidence for the existence of monopoles. However, some theories and models do predict their existence and scientists continue to search for them in experiments.

4. How do scientists search for monopoles?

Scientists search for monopoles by using powerful particle accelerators and detectors, such as the Large Hadron Collider, to create and observe high-energy collisions. They also use sensitive magnetic field detectors to search for any possible magnetic signatures from monopoles.

5. What would be the implications if monopoles were discovered?

If monopoles were discovered, it would have significant implications for our understanding of the universe and could potentially lead to the development of new technologies. It could also bring us closer to a unified theory of physics and help us understand the fundamental forces of nature.

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