Possibility of a Min. Speed Limit in the Universe

In summary, the conversation revolves around the possibility of a theoretical minimum speed limit in addition to the maximum speed limit imposed by the speed of light. While there are various arguments and theories proposed, the general consensus is that zero speed is not possible and all speeds are relative. The concept of zero point energy is also mentioned as a result of these discussions.
  • #1
FZ+
1,604
3
I wonder, since c presents a maximum speed limit to the universe, is it plausible for there to be a theoretical minimum (and non-zero) speed limit too?
Such a limit would certainly have interesting implications...
 
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  • #2
This seems vaguely familiar to me though I don't have any serious knowledge of physics. I was thinking that if the electrons themselves slowed down to nil that the gig we know as the universe would be up.

[edit]
Ok, I just saw the part about non-zero. Maybe someone would like to explain the details of my post for me?
 
  • #3
Well correct me if I'm wrong but.. Heisenberg: ΔxΔp = h/4π so if Δp→0 then Δx doesn't make sense anymore, so there must be some minimum jitternig speeds to prevent this. But I might be wrong...
 
  • #4
Uh... by non zero I meant no annoying replies saying that you can't get a speed less than zero and stuff like that. I am wondering if there is a minimum speed above zero, or whether there is a theoretical reason why zero-speed, relative to anything, is impossible.
 
  • #5
You would be correct climbhi.

Quantum claustrophobia is what it is referred to.
 
  • #6
Originally posted by FZ+
Uh... by non zero I meant no annoying replies saying that you can't get a speed less than zero and stuff like that. I am wondering if there is a minimum speed above zero, or whether there is a theoretical reason why zero-speed, relative to anything, is impossible.
I wish I could remember what someone who thought he knew told me about zero speed. I don't know if everything just ceases to be, implodes, or what the heck. I think the gist of it was that movement was essential. That’s really all I can throw into the arena.
Could it be something like absolute zero where you can't actually get there except through extrapolation?
 
  • #7
Originally posted by FZ+
Uh... by non zero I meant no annoying replies saying that you can't get a speed less than zero and stuff like that. I am wondering if there is a minimum speed above zero, or whether there is a theoretical reason why zero-speed, relative to anything, is impossible.

Is this in reference to my post showing you couldn't have zero speed with Heisenberg? If so sorry, I thought it was valid (apparantely Brad does too...) Am I mistaking what you're referring to?
 
  • #8
Originally posted by FZ+
I wonder, since c presents a maximum speed limit to the universe, is it plausible for there to be a theoretical minimum (and non-zero) speed limit too?
Such a limit would certainly have interesting implications...
It is possible to speak of minimum speed relatively a zero point only. That you offer to take as zero point?
 
  • #9
Originally posted by climbhi
Well correct me if I'm wrong but.. Heisenberg: ΔxΔp = h/4π so if Δp→0 then Δx doesn't make sense anymore, so there must be some minimum jitternig speeds to prevent this. But I might be wrong...

Well, you're not wrong per se... but I believe that the &Delta;p you have shown refers to the variance (or might say the standard deviation... the square root of the variance) of the expectation <p> (ie <p2> - <p>2). So, I believe the correct way to interpret this result is to say that the velocity of an object is centered around a certain value with an uncertainty given by this deviation. In that sense, the probability of measuring the velocity of a rest object at exactly zero is more probable than measuring it at any other value... but this probability is still zero.

Actually in solid state physics, people are often concerned with calculating phonon modes in low dimensional systems.

Side Bar: For those of you not in the know... a phonon mode in an array of atoms is analogous to the vibration found in a matrix of balls with each ball attached to its nearest neighbors by springs.

There is a lowest energy value a system can have... due to your reasoning. It is referred to as the zero point energy.

eNtRopY
 
  • #10
1/c

seriously though...

I don't think such a speed could be said to exist.

remember all objects must be at rest with respect to themselves. All other speeds are relative. So zero speed is possible.
 
  • #11
All speeds in space are relative therefore it is impossible to determine either a maximum or minimum speed except in relation to an object whose true speed is unknown.
 
  • #12
Originally posted by eNtRopY
Well, you're not wrong per se... but I believe that the &Delta;p you have shown refers to the variance (or might say the standard deviation... the square root of the variance) of the expectation <p> (ie <p2> - <p>2). So, I believe the correct way to interpret this result is to say that the velocity of an object is centered around a certain value with an uncertainty given by this deviation. In that sense, the probability of measuring the velocity of a rest object at exactly zero is more probable than measuring it at any other value... but this probability is still zero.

Actually in solid state physics, people are often concerned with calculating phonon modes in low dimensional systems.

Side Bar: For those of you not in the know... a phonon mode in an array of atoms is analogous to the vibration found in a matrix of balls with each ball attached to its nearest neighbors by springs.

There is a lowest energy value a system can have... due to your reasoning. It is referred to as the zero point energy.

eNtRopY

I would like to further elaborate and say that you have a zero probability of finding any object at any exact speed due to the argument originally posted by climbhi.

eNtRopY
 
  • #13
Originally posted by ObsessiveMathsFreak
1/c

seriously though...

I don't think such a speed could be said to exist.

remember all objects must be at rest with respect to themselves. All other speeds are relative. So zero speed is possible.
I'm pretty sure that 1/c is not it if there was a lowest speed. Afterall think of how fast your toe nails grow, prolly pretty close to 1/c
 
  • #14
But assume that light, originating from the 5th dimension offers our only reference point to absolute motion. Being that we have mass when we are standing still, we must all be moving together at some rate. But due to entropy (no pun intended)... the chaos of the motion defines no absolute direction of motion. As time goes by, it will only become more chaotic, making reaching minimum speed the more difficult, if we can even slow ourselves down somehow.
 
  • #15
The constant exist. The Constant this NOT CHANGEABLE VALUE. Any measured comparatively constant a value will be absolute, not relative. Exactly a constant is a zero point. This obviously. It is difficult to explaine the reason people prefer to stand on head...
Certainly, I am saying about the speed of light "c".
 
  • #16
Very interesting.
I personally do not see any reason for having a minimum speed, so i believe the minimum speed of any object will be 0.
Some quotes ...
elas
All speeds in space are relative therefore it is impossible to determine either a maximum or minimum speed except in relation to an object whose true speed is unknown.
Well, although speeds are relative, we find a maximum (relative) speed, which is (c), but this is not a good enough reason to think there is a minimum speed too .
climbhi
Well correct me if I'm wrong but.. Heisenberg: [del]x[del]p = h/4[pi] so if [del]p->0 then Ģx doesn't make sense anymore, so there must be some minimum jitternig speeds to prevent this. But I might be wrong...
I don't go with you in this point at all (i see Entropy was right in this point).
If [del]p->0 it does not mean that p->0, (therefore it does not mean that v->0) so the HUP will be useless to find any good result in this conversation.
 
  • #17
Speed is distance/time. Minimum speed is Planck length/planck time. Hmm, isn't it like "c"?

I'd add another view. What is speed? motion. What is motion? Interaction. So, zero speed is zero interaction. Now the big one - what does it mean to exist? If two particles never interact, do they exist relative to each other? Isn't stopping to complete standstill equivalent ceasing to exist? Virtual vacuum comes to mind.
 
  • #18
wimms: by that argument, there can be no minimum speed, since as t decreases, the speed increases.
 
  • #19
FZ, yes I noticed. By that argument any movement at all must occur at c. Effective speed of complex body may be whatever upto c, but instant change at Planck scale can only occur at c. Photons don't move slower.. Maybe mass either. I'd subscribe to that.

T can decrease only upto a point, it can't be zero, this has no sense and no reality. I'd bet that minimum really possible t is actual cause for speed of c. When we talk about absolute minimum speed, we have to talk about Planck scale, then Planck length comes to mind as smallest possible length. Smallest possible length in face of smallest possible time is smallest possible velocity. Any other type of movement must be averaged complex movement.
 
  • #20
Originally posted by wimms
Speed is distance/time. Minimum speed is Planck length/planck time. Hmm, isn't it like "c"?
...
You have drawn a hand near to the shining truth and... immediately pull it back.Why? Does it powerfully burns? Or a heavy cargo was hanged in your hand and you can't move it?
 
  • #21
Michael, I don't understand what you mean. Care to elaborate?
ps. did you get my pm?
 
  • #22
My guess is that matter is partly defined by it's motion so at zero speed matter ceases to exist as what we know matter to be, maybe it releases a lot of energy at this point, maybe nothing, maybe it'll never happen, and matter moving at the square of the speed of is equal to it's energy.

Did you know that when light is passed through a Bose-Einstein condensate it slows to nearly 30mph...weird stuff.


All speeds in space are relative therefore it is impossible to determine either a maximum or minimum speed except in relation to an object whose true speed is unknown. -Elas

From this one might wonder what if at the speed of light a thing was seen as light(from our reference point) but from the reference point of the thing moving at light speed, light speed things looked like normal matter moving very slowly... and what if when a thing stopped moving from our point of view it slipped into a lower "reference frame of motion" and becamse something moving very fast at near the speed of light...
Is this crackpot enough?
 
  • #23
I believe the slowest speed possible is 0. The universe is traveling at 0 speed, for there is nothing that it is moving relative to (That is, of course, assuming that there is nothing outside the universe).

However, this is somewhat paradoxical because Jammieg brings up an excellent point that matter at 0 speed is not matter as we know it due to the nonexistence of energy. But then again, I'm not sure the universe is just "matter as we know it."...[?]
 
  • #24
FZ+!

if there was the lowest nonzero speed in a form of V=constant i will right awy invent coresponding V=const special relativity.
 
  • #25
This reminds of the turtoise and the hair paradox about light speed and beyond...?
I've read somewhere that matter can pop in and out of existence, how does that happen! Maybe our universe is only existing on one light speed band, then again how would anyone prove something like that or why would they want to?
 
  • #26
What if the minimum speed would be...c.

Think about it: Suppose you're traveling at the speed of light. This is the only velocity which you can determine absolutly (i.e. you simply can't go any faster). Now you start slowing down. The only way to be certain that you slow down is to send a rocket at the speed of light in the direction you were heading. If you see the rocket going faster, you are certainly going slower. You would now be able (as long as you can see the rocket) to determine you're lowest velocity to be the one for which the rocket is moving fastest. When does that happen: when you're moving at c in the opposite direction. Since it is all relative c is the lowest velocity.
 
  • #27
Originally posted by dr-dock
FZ+!
if there was the lowest nonzero speed in a form of V=constant i will right awy invent coresponding V=const special relativity.
You might better give it a go. I'm afraid though, that you are late. Its in SR already in form of Planck scales. The only thing you might get is another look at it, which might expand our understanding.
 

1. What is the minimum speed limit in the universe?

The minimum speed limit in the universe is the speed of light, which is approximately 299,792,458 meters per second. This is known as the universal speed limit and is a fundamental constant in physics.

2. Can anything travel faster than the speed of light?

According to Einstein's theory of relativity, nothing can travel faster than the speed of light. As an object approaches the speed of light, its mass increases and it requires more and more energy to accelerate. This makes it impossible for anything to reach or exceed the speed of light.

3. Is there any evidence for a minimum speed limit in the universe?

Yes, there is significant evidence for the existence of a minimum speed limit in the universe. This includes the observations of the speed of light being constant in all reference frames, as well as the phenomenon of time dilation and length contraction at high speeds, which are predicted by Einstein's theory of relativity.

4. Could the minimum speed limit in the universe change in the future?

It is highly unlikely that the minimum speed limit in the universe could change in the future. The speed of light is a fundamental constant and is deeply ingrained in the laws of physics. Any change to this would require a complete overhaul of our understanding of the universe.

5. How does the minimum speed limit in the universe affect space travel?

The minimum speed limit in the universe greatly impacts space travel. As mentioned earlier, as an object approaches the speed of light, its mass increases and it requires more energy to accelerate. This makes it incredibly difficult and impractical to reach other planets or stars, as the required energy and time to travel such vast distances would be immense.

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