Does Spaghettification contradict space/time swap in a black hole

In summary, it appears that if you are feet-first about to fall into a black hole, you will undergo spaghettification at a certain distance, but if the black hole is big enough, it could also happen inside the event horizon. It's unclear whether this contradicts spaghettification, as it is possible for all points on a person's forward-time path to be equidistant from the singularity, but it seems unlikely. Additionally, if the singularity is in the future, then it would not be in any spatial direction.
  • #1
liron
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Hi, I've heard and read that if someone was to fall towards a black hole, say feet first, they would undergo spaghettification at a certain distance, as the gravity at their feet would be much greater than the gravity at their head, and their body wouldn't be able to reisist the pulling effect. I also heard that if the black hole is big enough, it could happen inside the black hole's event horizon.

However, I've also heard and read that inside a black hole, the radial dimension becomes the time dimension and the time dimension becomes a spatial dimension, so that the quantum singularity is no longer a distance away in space, but in the future, and you can't escape the future.

If that's the case, then this would be at odds with spaghettification, as at any point in that person's proper time, all parts of that person would be the same distance away from the singularity, and that distance would be a purely time distance.

Does this contradict spaghettification?

Also, if the singularity is in the future, then it would not be in any spatial direction.
 
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  • #2
Welcome to PF;
If the hole were really big, you simply would not get the effect.

What happens inside the event horizon is open for speculation.
Thinking about what happens there is tricky - it would help if you told us where you are reading these things.
It sounds like you have been reading pop-science accounts that are not meant to be linked.

Have a look at:
http://www.jimhaldenwang.com/black_hole.htm
 
  • #3
liron said:
Also, if the singularity is in the future, then it would not be in any spatial direction.

The singularity _is_ in the future, but that doesn't prevent tidal forces from happening.
 
  • #4
liron said:
However, I've also heard and read that inside a black hole, the radial dimension becomes the time dimension and the time dimension becomes a spatial dimension, so that the quantum singularity is no longer a distance away in space, but in the future, and you can't escape the future.

Where did you read that? I want to know more about this.

cb
 
  • #5
MTW https://www.amazon.com/dp/0716703440/?tag=pfamazon01-20 has a rather poetic discussion of this:

What does it mean for r to "change in character from a spacelike coordinate to a timelike one"? The explorer in his jet-powered spaceship prior to arrival at r = 2M always has the option to turn on his jets and change his motion from decreasing r (infall) to increasing r (escape). Quite the contrary is the situation when he has once allowed himself to fall inside r = 2M. Then the further decrease of r represents the passage of time. No command that the traveler can give to his jet engine will turn back time. That unseen power of the world which drags everyone forward willy-nilly from age twenty to forty and from forty to eighty also drags the rocket in from time coordinate r = 2M to the later value of the time coordinate r = 0. No human act of will, no engine, no rocket, no force (see exercise 31.3) can make time stand still. As surely as cells die, as surely as the traveler's watch ticks away "the unforgiving minutes," with equal certainty, and with never one halt along the way, r drops from 2M to 0.

[add]
http://arxiv.org/abs/0705.1029 "No Way Back" has a more detailed, technical discussion of some related issues.
 
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  • #6
liron said:
Hi, I've heard and read that if someone was to fall towards a black hole, say feet first, they would undergo spaghettification at a certain distance, as the gravity at their feet would be much greater than the gravity at their head, and their body wouldn't be able to reisist the pulling effect. I also heard that if the black hole is big enough, it could happen inside the black hole's event horizon.

However, I've also heard and read that inside a black hole, the radial dimension becomes the time dimension and the time dimension becomes a spatial dimension, so that the quantum singularity is no longer a distance away in space, but in the future, and you can't escape the future.

If that's the case, then this would be at odds with spaghettification, as at any point in that person's proper time, all parts of that person would be the same distance away from the singularity, and that distance would be a purely time distance.

Does this contradict spaghettification?

Also, if the singularity is in the future, then it would not be in any spatial direction.

I'd double check that second paragraph. It doesn't sound right. I think you've misinterpreted something.

Inside an event horizon all forward-time paths lead closer to the centre but that isn't to say that all points on them are equidistant from it. You could still expend energy to slow your acceleration towards the centre, or to move laterally, but there is no amount of energy that is going to stop you from accelerating towards it.
 
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  • #7
Spaghettification is a description of curvature, which is local. The statement that all timelike world-lines end at the singularity is a description of the global, not local, properties of the spacetime.

liron said:
Also, if the singularity is in the future, then it would not be in any spatial direction.
Curvature is not a vector that points in a certain direction. For example, the ocean tides on Earth have tidal bulges that rise on both sides of the planet. By observing the tides, you can't tell in which direction the moon lies.

liron said:
If that's the case, then this would be at odds with spaghettification, as at any point in that person's proper time, all parts of that person would be the same distance away from the singularity, and that distance would be a purely time distance.

This is a nice way of showing that GR can't be properly understood in terms of Newton's law of gravity and instantaneous action at a distance. The fact that you're running into so many problems applying the Newtonian description is fundamentally because that description doesn't make sense in this example.

As a side note, it's not true that all points on the observer's body would be the same temporal "distance" from the singularity at a fixed proper time.
 
  • #8
Thanks to all the replies.

In answer to Simon Bridge's question, I read about spaghettification inside a black hole in a Wikipedia article on Spaghettification. I read and heard about space and time being reversed in an online course on general relativity from Stanford University and elsewhere on the web, perhaps in Wikipedia as well but I can't remember exactly where. Thanks also for that paper.

Thanks pervect for the other paper. I've already read that one several years ago.
 

1. What is spaghettification in a black hole?

Spaghettification is a phenomenon that occurs when an object enters a black hole and experiences extreme gravitational forces. These forces stretch the object into a long, thin shape resembling a piece of spaghetti.

2. How does spaghettification relate to the concept of space/time swap in a black hole?

In a black hole, the intense gravitational pull causes space and time to become distorted, resulting in what is known as "space/time swap". This means that the normal laws of physics and the traditional understanding of space and time no longer apply.

3. Does spaghettification contradict space/time swap in a black hole?

No, spaghettification is a result of the extreme gravitational forces in a black hole, which are also responsible for the distortion of space and time. Therefore, it does not contradict the concept of space/time swap. Instead, it is a consequence of it.

4. Can we observe spaghettification in action?

Currently, we do not have the technology to directly observe spaghettification in a black hole. However, scientists have observed the effects of spaghettification on other objects, such as stars, as they are pulled into black holes.

5. Is there any way to avoid spaghettification in a black hole?

Unfortunately, no. The intense gravitational forces in a black hole are so strong that they cannot be escaped, and all objects that enter a black hole will experience spaghettification. This is due to the fact that the gravitational pull increases significantly as an object gets closer to the center of the black hole, known as the singularity.

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