Short questions about dark matter

In summary: GR!).In summary, RandallB. suggests that GR is still used to explain gravity effects and that current physics assumes that there is some sort of "dark matter" that we are yet to know how to see. I have read that GR is used to explain the missing mass in the Universe and that there is evidence that suggests dark matter may actually be a candidate for this mysterious substance. I ordered a book on GR by Robert M. Wald and I am looking forward to learning more about this fascinating subject.
  • #1
cup
27
0
I have not yet read anything about special relativity, so these questions may be naive.

Here are my questions (very much related to each other):

1) Is it assumed in the physics community that dark matter is really matter? If so, why?

2) Can't it be that "dark matter" is just a dent in space-time, not actually due to the presence of any matter?
 
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  • #2
cup said:
1) Is it assumed in the physics community that dark matter is really matter? If so, why?

2) Can't it be that "dark matter" is just a dent in space-time, not actually due to the presence of any matter?
As you learn about SR and then GR you will learn that current physics uses GR to define gravity effects as coming from “Warped Space” or you might say dents in space.
Also, there is only one thing defined as able to “dent” space – Matter.
More matter – more warp, curve or dent.

More dent is measured than the matter we see can account for.
Thus rather than make something up; assume there must be some matter we have yet learned how to see.
We only call it “Dark Matter” because we cannot see it, every reason to think it is real, better to assume the short coming is our ablity to see, than assuming the extra “dent” is caused by magic.
 
  • #3
I assume you are focused on dark matter as contrasted with dark energy: both are largely unknown.

Try wikipedia
http://en.wikipedia.org/wiki/Dark_matter

In physics and cosmology, dark matter is hypothetical matter that does not interact with the electromagnetic force, but whose presence can be inferred from gravitational effects on visible matter. According to present observations of structures larger than galaxies, as well as Big Bang cosmology, dark matter and dark energy account for the vast majority of the mass in the observable universe. The observed phenomena which imply the presence of dark matter include the rotational speeds of galaxies, orbital velocities of galaxies in clusters, gravitational lensing of background objects by galaxy clusters such as the Bullet cluster, and the temperature distribution of hot gas in galaxies and clusters of galaxies
 
  • #4
RandallB said:
More dent is measured than the matter we see can account for.

I have heard this, too.

It makes me wonder; does the fact that the physicists are trying to account for the missing mass mean that they have found that there is something unphysical about "dent without mass"?

If not then I see no reason for them to worry about the accounting discrepancy.
 
  • #5
cup said:
I have heard this, too.

It makes me wonder; does the fact that the physicists are trying to account for the missing mass mean that they have found that there is something unphysical about "dent without mass"?

If not then I see no reason for them to worry about the accounting discrepancy.
Because they look for Dark Matter - Why think they have doubts?
Just assume they are confident about only mass warping space even four dimensional space.
That means there is some “Dark Matter/Mass” hidden from view, shouldn’t they be curious about what it is?

If they are not, I sure am! And I’d want to get some new scientists that were, that issuppose to be why they are there, answer the unknown.
 
  • #6
I think you answered my question already, RandallB.
Let's not bother right now with the follow-up questions I have.

I look forward to reading about GR! I have ordered the book by Robert M. Wald.

Thank you for replying.
 
  • #7
cup said:
I think you answered my question already, RandallB.
Let's not bother right now with the follow-up questions I have.

I look forward to reading about GR! I have ordered the book by Robert M. Wald.

Thank you for replying.

You have not read anything about Special Relativity and you are going to start with Wald's book? It's a tough book, certainly not friendly for beginners... It's a good book further down the road though.
 
  • #9
yenchin said:
You have not read anything about Special Relativity and you are going to start with Wald's book? It's a tough book, certainly not friendly for beginners... It's a good book further down the road though.

Ooops, I meant to say general relativity. I have read (somewhat) about special relativity.

At this point I am more of a math student with an interest in physics.
So I am not sure that the usual rules of thumb apply to me.

I searched for a book promising a "modern treatment" (which I assume means "more mathematical") of GR.
For a while I thought about getting the book by Ludvigsen, but I found Wald to have gotten better reviews (on amazon.com).
 
  • #10
cup said:
Ooops, I meant to say general relativity. I have read (somewhat) about special relativity.

At this point I am more of a math student with an interest in physics.
So I am not sure that the usual rules of thumb apply to me.

I searched for a book promising a "modern treatment" (which I assume means "more mathematical") of GR.
For a while I thought about getting the book by Ludvigsen, but I found Wald to have gotten better reviews (on amazon.com).

We are getting abit off topic, but anyway... I am a graduate student in math :) When I took GR from physics department the lecturer used Hartle's book. Horrible for me because it's a physics-first-math-later book, and I was trained in pure math (now I am somewhat not as pure...). I later on re-learned the material via Foster and Nightingale thin and wonderful book (which should get you through the basic faster, you can come back for Wald's later for details and advanced treatment). Sean Carroll's book is more suitable for me than Hartle's and is a good sumplement to Wald's. For rigorous mathematical treatment, try O'Neill's Semi-Riemannian geometry with application to GR book.

Have you learned any differential geometry (in the manifold setting, not surfaces embedded in 3D)? If not I can recommend you some books that I find useful.
 
  • #11
yenchin said:
...
Have you learned any differential geometry (in the manifold setting, not surfaces embedded in 3D)? If not I can recommend you some books that I find useful.

My differential geometry course used DoCarmo's book "Differential Geometry of curves and surfaces", so it was in three-dimensional space.

Since then I have read (superficially) on my own about manifolds in Rn.
This has been from Spivak's "Calculus on manifolds" and from "Mathematical analysis - An introduction" by Browder.
In the future, I will take a course using Spivak's book.

I get the feeling that Spivak is sufficient for GR. Is this reasonable?

Edit: Let's let this thread die now. yenchin: feel free to reply to this in a personal message.
 
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  • #12
cup said:
It makes me wonder; does the fact that the physicists are trying to account for the missing mass mean that they have found that there is something unphysical about "dent without mass"?

The main equation in general relativity is Einstein's equation,

[tex]G = 8 \pi T,[/tex]

where [itex]G[/itex] is geometric tensor built from the metric and curvature tensors, and [itex]T[/itex] is a tensor that encapsulates the distribution of mass, energy, and momentum in the universe. As, you can see, geometrical curvature and distribution of matter are not independent. As John Wheeler put it, "Matter tells space how to warp. And warped space tells matter how to move."
 
  • #13
George Jones said:
As John Wheeler put it, "Matter tells space how to warp. And warped space tells matter how to move."

This is a very interesting statement. Since like, the movement of the matter is what generates the radiation right? And the radiating, spinning energy\matter is what creates the space time curvature... Well that's a feedback loop.

What is generating the torque in the middle of our galaxy?

Could it be that dark matter is a non-exsistant, made up idea by people that were unable to calculate the spin into the equations?
 

What is dark matter?

Dark matter is a type of matter that does not emit or interact with electromagnetic radiation, making it invisible to telescopes and other instruments. Its existence is inferred through its gravitational effects on visible matter.

How is dark matter different from regular matter?

Dark matter differs from regular matter in that it does not interact with light or any other form of electromagnetic radiation. It also does not emit or absorb energy, making it difficult to detect and study.

What is the evidence for the existence of dark matter?

There are several lines of evidence that support the existence of dark matter. These include the observed rotation of galaxies, the gravitational lensing of light from distant objects, and the distribution of matter in the early universe.

How much of the universe is made up of dark matter?

It is estimated that dark matter makes up about 27% of the universe, while regular matter only makes up about 5%. The remaining 68% is made up of an unknown type of energy called dark energy.

Why is dark matter important to study?

Dark matter is important to study because it is believed to play a crucial role in the formation and evolution of galaxies and the structure of the universe. Understanding dark matter can also help us better understand the fundamental laws of physics.

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