Is Time Dilation Caused by Motion or the Fabric of Time Itself?

[Northern]

Hi.
It's known that for an object in a motion relative to another, time will slow down.
Now the question is why? Is it merely the mechanical effect that since the object is in motion, all its processes (which are practically motion of particles within the structure) now have to travel further due to the motion as shown http://upload.wikimedia.org/wikipedia/commons/e/eb/Time_dilation02.gif" or is it because the very fabric of time itself slows down?

 

[Dmitry67]

There is an important part missing here. Check red.

It's known that for an object in a motion relative to another, time will slow down relative to another.

 

[Naty1]

What Dimitry means is that if two observers are moving relative to each other at a constant velocity, each will observe the other's time as having slowed down. But neither observer sees any change in their own, local, passage of time.

An example of this is an experimental observer in a lab watching a particle decay...a faster particle appears to a stationary lab observer as lasting longer than would be expected because of the motion of that particle.

No one knows exactly why; changes in gravitational potential also affect the passage of time as measured by a distant observer.

So both motion (velocity) and gravity affect the passage of time...somehow all three are related in a way that is not fully understood.

 

[Northern]

oh, so the nature itself of time dilation is not yet understood. Ok, then. It's what I needed.
Thanks.

 

[Dmitry67]

Well, it is well understood in the physical sense.
It is a result of the math behind the physics.

Physics does not answer questions like "but WHY 2 masses attract?" (you can replace it with anything). Physics answer questions "what is a formula which describes the force between 2 masses", etc.

The deep "why" question, depending on the context, belongs to:
1. Realm of phylosophy.
2. Advanced cosmological concepts (multiverse, antrophic principle, selection)
3. Crackpottery

http://math.ucr.edu/home/baez/crackpot.html

17.
10 points for arguing that while a current well-established theory predicts phenomena correctly, it doesn't explain "why" they occur, or fails to provide a "mechanism".

 

[ExecNight]

I know 2 + 2 = 4, and i know *why* 2 + 2 = 4.

If i didn't know why 2 + 2 = 4 then i would be just a database who just happens to know the data that 2 + 2 = 4.

--

My mind works in a way that i have to understand "the why" when i am talking about something. And physics exactly answers the question WHY. This new trend is a big degeneration.

Newton answered the question "WHY THE APPLE FALLS DOWN?" with gravity..
And answered what forms the gravity and how. How gravity affects and all.

But this simple answer to the question WHY led to other and harder questions. And that's exactly how science works. Right now science can not answer some why questions.

Its not because science doesn't work that way, its simply because science didn't get there yet. You will have that answer, but absolutely not by deeming it irrelevant.

Just my thought process

 

[yossell]

Agree `why' questions are not to be dismissed as `merely philosophical'; but it's also trivial to ask `why' to any answer that's given and to pretend that physics or philosophy has failed when nothing informative or non-circular can be given. Every theory must have its primitives. Why do massive bodies attract on Newton's theory? Why is space-time a 4-dimensional Minkowsian manifold? Why does the Schrodinger equation obtain?

Perhaps future theories can give exciting, informative answers. But if not, if these are just fundamental facts about the world and there is no why, well - fair enough. I see no problem.

 

[Dmitry67]

This is way how science WORKED BEFORE.
Why ice melts? because temperature is a chaotic movement of molecules, and when their movement is too energetic, they break the crystal. So the less fundamental thing is explained based on the more fundamental one. However, this logic does not work any longer when science hit the most (or almost-) fundamental level. There are no more fundamental things. People feel comportable getting explanations like "space is made of spacions and time is made of timions", but only until they start wondering what "timions" consist of :)

 

[Northern]

the "why" I was talking about is quite physical. Why does the apple fall from a tree? Because it's attracted by Earth's gravity. It wasn't a philosophical kind of why but more like "what causes it"? What exactly happens when the two objects move at difference speeds that causes the time to run faster or slower for this or another one?

So, it was a pretty technical question of "what causes it?" or rather than "what purpose does it serve" or some other nonsense.

 

[Dmitry67]

Why does the apple fall from a tree? Because it's attracted by Earth's gravity.

It explains nothing.

Why Earth excerts gravity?
Why apple is affected by gravity?

:)

 

[ExecNight]

But isn't accepting current knowledge as fundamentals of the universe a bit too much?

It draws a line for the scientists that further thought in that area is unnecassary. And it kind of shows similarities with religion in its logic.

 

[George Jones]

I don't think that "Newtonian Gravity" is an answer to a "Why?" question. "Newtonian gravity" gives a name and quantitative form (that is, formulas) to certain forces we experience, but it doesn't answer "Why?".

[edit]I see that Dmitry67 posted much the same opinion while I was typing.[/edit]

 

[Northern]

It explains nothing.

Why Earth excerts gravity?
Why apple is affected by gravity?

:)

Absolutely. It gives one answer which raises the other. What causes the very effect of gravity? Is it the curves in spacetime, or is it caused by gravitons? And so on and on.

As you may see, all I was asking is what causes time dilation. What exactly makes time move at a different pace for different speeds.

 

[DaveC426913]

Hi.
It's known that for an object in a motion relative to another, time will slow down.
Now the question is why? Is it merely the mechanical effect that since the object is in motion, all its processes (which are practically motion of particles within the structure) now have to travel further due to the motion as shown http://upload.wikimedia.org/wikipedia/commons/e/eb/Time_dilation02.gif" or is it because the very fabric of time itself slows down?

Think of this:

When I get in my car and travel due West at 60mph for one hour. I will measure 60 miles traveled. When I look at a map I will see that I have gotten from Long. 179W to Long. 180W (about 60 miles) in about one hour.

If you were to get in your car and travel at the same speed but due North West, you will measure 60 mles traveled in one hour. When you look at my map, you will see that you have gotten from Long. 179W to Long 179.707W in about one hour.

Neither of us have undergone any shrinkage in either time or space, but when we compare notes, we see that our frame of reference is not identical.

when we measured our own experiences, there was no confusion; it wasn't until we tried to use a common frame of reference (the map), that we saw our experiences didn't seem to agree. The map is biased; it marks Longitudes only East-West, not SE-NW. By your yardstick, the map is sort-changing you on miles, but only because we used my map (i.e. my frame of reference) to look at your journey.

It is the same with time. Both our viewpoints are valid, they just don't agree.

 

[Dmitry67]

The reason why this discussion began because Nothern had misinterpreted the last post and wrote "oh, so the nature itself of time dilation is not yet understood"

The situation with time dilation is the same as with other 99% subjects we can discuss here: we have formulas, but we don't speak about the "true nature" etc. "not yet understood" does not mean that scientists work hard on the subject, "trying to understand it". It is a trivial part of SR.

And no, it is not drawing the line. But to cross the line, you must have more than a question WHY. You need a proof that that something is not fundamental and there are more fundamental things.

 

[ExecNight]

Jones i think you don't see it as an answer because you always think of the bigger picture. The question is simple here, Why does the apple fall?

The answer is simple, The Earth has a mass, apple has a mass and they both attract each other and pull each other. That's why apple falls. And from now on I will call this force gravity for easier reference.


That's exactly the answer for that particular why question. It answers everything for the directed why question. It might or might not arise new questions depending on your knowledge.. But every question is another case in itself.

 

[ExecNight]

And no, it is not drawing the line. But to cross the line, you must have more than a question WHY. You need a proof that that something is not fundamental and there are more fundamental things.

You have to achieve certain relative speeds to experience the time dilation. So this pretty much tells us something is involved. A force, and that force changes something. And that change is perceived as time dilation.

So no, i can't accept time dilation as a cause, its an effect. So that particular question why seems valid to me. With a possible valid answer.

Just my thought process :)

 

[George Jones]

If the answer to "why does an apple fall?" is either "Because of Newtonian gravity." or "Because of the general theory of relativity.", then I think the answer to "Why does time dilation occur?" is "Because of the special theory of relativity."

 

[ExecNight]

If the answer to "why does an apple fall?" is either "Because of Newtonian gravity." or "Because of the general theory of relativity.", then I think the answer to "Why does time dilation occur?" is "Because of the special theory of relativity."

But i told in my answer exactly what i am referencing when i say gravity. Can you do the same with Special Relativity?

 

[George Jones]

But i told in my answer exactly what i am referencing when i say gravity. Can you do the same with Special Relativity?

Off the top of my head, I can't give a complete list, and so the list that follows is both incomplete and redundant: inertial observers, Lorentz in variance, invariance of the speed of light, time dilation, Lorentz contraction; etc.

Listing and quantifying some physical effects and calling this list and quantification "special relativity" is no different than listing and quantifying some physical effects and calling this list and quantification "gravity."

In the case of gravity, many of the effects are everyday experiences that we have observed since we were born. Consequently, its is easy to say "Oh, that makes sense." once we see the theory of gravity. In the case of special relativity, the effects are not everyday experiences, and we have to work hard to observe these effects. Consequently, it is easy to say "Oh, this seems mysterious; why is it true?" when we see the theory of special relativity.

 

[Naty1]

The reason why this discussion began because Nothern had misinterpreted the last post and wrote "oh, so the nature itself of time dilation is not yet understood"

instead of nature, I beliver the poster probably meant "root, or fundamental, cause"...not being understood.

 

[Rasalhague]

the "why" I was talking about is quite physical. Why does the apple fall from a tree? Because it's attracted by Earth's gravity. It wasn't a philosophical kind of why but more like "what causes it"? What exactly happens when the two objects move at difference speeds that causes the time to run faster or slower for this or another one?

So, it was a pretty technical question of "what causes it?" or rather than "what purpose does it serve" or some other nonsense.

Here's one kind of answer. It's a geometrical property of spacetime. DaveC's example offers a very close analogy. The "why" of time dilation is like the question: why did the driver who went NNW not travel as far west as the driver who went due west? In Euclidean space, we can recover the total distance using Pythagoras's theorem: (total distance from point A to point B)² = (distance traveled to the north)² + (distance traveled to the west)². In Minkowski space (the simplest kind of relativistic spacetime, the kind dealt with in special relativity), the square of the total "spacetime interval" between two events is s² = -t² + x², where x is the spatial distance between event A and event B, and units of space and time are chosen such that the speed of light, c, is equal to 1. This formula, the Minkowski metric, gives the same answer no matter what velocity we choose to call zero, just as the Pythagorean formula gives the same answer no matter what direction we choose to call north (magnetic north, geographic north, or any other direction). The amount of time between a pair of events depends on the velocity of the coordinate system you're using, as does the amount of space, but the amount of spacetime is the same in all coordinate systems.

NOTE: Many people use the opposite sign convention: s² = t² - x². It makes no physical difference; you just have to change the sign in certain equations.

 

[Northern]

Had a situation here.

Anyway, can please somebody explain to me what part of the question "What exactly causes time dilation" is a non physical one? That is, a question you're not supposed to direct to a physicist? What part of it is even remotely related to philosophy?

 

[phyti]

Had a situation here.

Anyway, can please somebody explain to me what part of the question "What exactly causes time dilation" is a non physical one? That is, a question you're not supposed to direct to a physicist? What part of it is even remotely related to philosophy?

To be politically correct despite the fact that scientists earn 'PH.D's, replace 'why' with 'how'.
Temper this with the fact that all definitions (theories, conjectures, etc.) are defined in terms of other definitions, which results in circular reasoning, or accepting some definitions without proof.

Isn't the linked example you gave sufficient?

 

[JM]

Hi.
It's known that for an object in a motion relative to another, time will slow down.
Now the question is why?

The slowing of time is the result of the light traveling at the same speed with respect to each of the observers ( or coordinate systems ) that are in relative motion. Each observer sees the light traveling a different path length, but moving at the same speed. Therefore the time taken by the light is different for each observer. See Wikepedia, Time Dilation for a more complete explanation.

 

[Austin0]

[

To be politically correct despite the fact that scientists earn 'PH.D's, replace 'why' with 'how'.
Temper this with the fact that all definitions (theories, conjectures, etc.) are defined in terms of other definitions, which results in circular reasoning, or accepting some definitions without proof.

Isn't the linked example you gave sufficient?

I compltely agree and think you have brought up a crucial point both to this discussion as well as in a broader context.

All rational axiomatic logical strucures are inherently tautological. This applies to physics as well as formal mathematical structures.
But there is a significant difference between the two which seems to be often forgotten.
. In mathematics a valodly derived theorem consistent with the structure cannot be untrue. Axioms cannot be untrue.
Regarding the logical structure of physics , history has amply demonstrated that neither one is neccessarily valid as applied to the real world. Particularly recent history i.e. SR GR QM and the established threoms and logic they either falsified or limited.
Only a fool would fail to recognize that, not only are these systems the only way we can possibly understand and describe the world , but that the incredible power and utility of these structures renders insignificant any small glitches or required amendments.
At the same time it might be prudent to remember that history is relative and we are living it right now. That the future may reveal that a dogmatic certainty in the theorems a la mode may be as defensive and shortsighted as Ptolemists resorting to epicycles rather than examining the real questions they were confronted with. IMHO!

 

[Austin0]

You have to achieve certain relative speeds to experience the time dilation. So this pretty much tells us something is involved. A force, and that force changes something. And that change is perceived as time dilation.

So no, i can't accept time dilation as a cause, its an effect. So that particular question why seems valid to me. With a possible valid answer.
Just my thought process :)

Hi ExecNight

Just a note of complete agreement on the bolded statements.

On your beginning ;that is the relevant open question. You can't assert that view with certainty as it is also relative.

but it is certainly an unresoved issue and bears examination . IMHO

 

[Austin0]

Had a situation here.

Anyway, can please somebody explain to me what part of the question "What exactly causes time dilation" is a non physical one? That is, a question you're not supposed to direct to a physicist? What part of it is even remotely related to philosophy?

Hi Northern

I can only try to explain what many people ,"physicists" say to this question:

The affects of Lorentzian transformations do not have a physical implication in terms of cause and affect. They are purely a kinematic consequence of relative motion and it's affects on measurements between inertial frames.
I.e. they do not apply to the frame you are in. They only apply to your frame as observed from other frames.
It's always ... "Dont blame my frame! It was the other frame did it" defence.

But I certainly agree that to ask the question and attempt to delve into the actual physics involved (if there is) is not at all a philosophical question. I think that to deny the question itself indicates a degree of metaphysical certainty regarding ultimate reality that is so far beyond determination. Certainly gravitational time dilation is viewed as having a degree of physical reality

 

[Austin0]

Here's one kind of answer. It's a geometrical property of spacetime. DaveC's example offers a very close analogy. The "why" of time dilation is like the question: why did the driver who went NNW not travel as far west as the driver who went due west? In Euclidean space, we can recover the total distance using Pythagoras's theorem: (total distance from point A to point B)² = (distance traveled to the north)² + (distance traveled to the west)². In Minkowski space (the simplest kind of relativistic spacetime, the kind dealt with in special relativity), the square of the total "spacetime interval" between two events is s² = -t² + x², where x is the spatial distance between event A and event B, and units of space and time are chosen such that the speed of light, c, is equal to 1. This formula, the Minkowski metric, gives the same answer no matter what velocity we choose to call zero, just as the Pythagorean formula gives the same answer no matter what direction we choose to call north (magnetic north, geographic north, or any other direction). The amount of time between a pair of events depends on the velocity of the coordinate system you're using, as does the amount of space, but the amount of spacetime is the same in all coordinate systems.

NOTE: Many people use the opposite sign convention: s² = t² - x². It makes no physical difference; you just have to change the sign in certain equations.

Everything you have said here is undoubtedly valid but it just begs the question.
Turns the physics to spacetime. The question remains the same.
We view the geometry of flat spacetime as being different from GR spacetime in that,, in GR there is an accepted degree of physicallity, a causal relationship , a non-relative interpretation of the affects.
But not in flat spacetime. This not only creates somewhat of a dichotomy between SR and GR but raises logical and physical questions as to the separation and the meaning of spacetime in this context. I.e. accelerating through this geometric spacetime is regarded as real with real effects but the instant you turn off the motor, this spacetime is suddenly passive , abstract without any physical implications.

Would you say this situation does not raise valid questions ?

 

[nickyrtr]

Had a situation here.

Anyway, can please somebody explain to me what part of the question "What exactly causes time dilation" is a non physical one? That is, a question you're not supposed to direct to a physicist? What part of it is even remotely related to philosophy?

It is a physical question, in my opinion. One observes time dilation because light signals (or any information signals) from a fast-moving source arrive at your detector in a slower sequence than the sender perceives them to be sent.

Likewise, if you communicate back to the sender, your light signals arrive in his detector in a slower sequence than you perceive them to have been sent.

The basic cause of this effect is the law that every observer must see that light propagates with the same speed. No explanation 'why' is offered for this law, it is a first principle which (so far) agrees with experiments.

 

[George Jones]

It is a physical question, in my opinion. One observes time dilation because light signals (or any information signals) from a fast-moving source arrive at your detector in a slower sequence than the sender perceives them to be sent.

Likewise, if you communicate back to the sender, your light signals arrive in his detector in a slower sequence than you perceive them to have been sent.

I think that some care is needed; it seems that you're describing the Doppler effect, although I could be wrong. In reality, the phrase "a moving clock runs slow" does not necessarily mean "a moving clock is seen visually to run slow." A clock moving directly away from an observer appears visually to run slow, but a clock moving directly towards an observer appears visually to run fast. In both cases, what is seen visually is given by the Doppler expression, which is always different than the time dilation expression. In both cases, the time dilation expression, used appropriately, does apply.

Consider the following example.

Assume that Alice is moving with constant speed directly towards Ted. When Ted uses his telescope to watch Alice's wristwatch, he sees her watch running at a faster rate than his watch. Ted sees Alice's moving watch running fast, not slow! Ted sees this because of the Doppler shift. Because Alice moves towards Ted, the light that Ted sees from her watch is Doppler-shifted to a higher frequency. But the rate at which a clock or watch runs is like frequency, i.e., a second-hand revolves at a certain frequency, and all frequencies are Doppler-Shifted., so ted see Alice's wristwatch running fast.

To explain what "A moving clock runs slow." means, I first have to explain how Ted (with help from Bob) establishes his frame of reference.

Starting from Ted, a series of metre sticks, all at rest with respect to Ted, are laid end-to-end by Bob along the straight line joining Alice and Ted. At each joint between two consecutive metre sticks, Bob places a small clock. The metre sticks and clocks all are at rest with respect to Ted. Initially, none of the clocks are running; before turning them on, the clocks have to be synchronized. To do this, Ted directs a laser pointer along the line joining Ted and Alice, and then sends a flash of light. Each clock is turned on when the flash of light reaches it. The speed of light is not infinite, so the time taken for the light to travel from Ted to each clock has to be taken into account. To do this, the clocks' hands are set initially as follows. The clock one metre away from Ted is set to the time taken for light to travel one metre; the clock two metres away from the tower is set to the time taken for light to travel two metres; ... .

This whole setup of metre sticks and clocks establishes Ted's reference frame.

Now, As Alice moves toward Ted, Ted uses his telescope to watch Alice's wristwatch, and to watch his clocks. First, he watches one of the distant clocks in his reference frame. The time he sees on the clock is the time at which the light he sees set out from the clock, so Ted sees an earlier time on the distant clock than he sees on his wristwatch. Because the clock is stationary in his frame, Ted does, however, see the distant clock running at the same rate as his watch. Similarly, Ted's sees all the clocks in his frame running at the same rate as his watch.

As Alice approaches Ted, she whizzes by clock after clock of Ted's reference frame. Using his telescope, Ted sees that Alice is beside a particular clock, and he notes the time on her watch and the time on the clock adjacent to her. Some time later, Ted sees Alice beside a different clock, and he again notes the time on her watch and the time on the clock adjacent to her.

Ted checks his notes, and he finds that the time that elapsed on Alice's watch as she moved between these two clocks of his frame is less than the difference of the readings of the two clocks. This what is meant by "A moving clock runs slow."

Unfortunately, "time dilation" in general relativity and "time dilation" in special relativity often have different operational meanings. Suppose observer A hovers at a large distance from a Schwarzschild black hole, and that observer B hovers near the event horizon. If observer A uses a telescope to observe B's watch, A will see B's watch running more slowly than his own watch. In this context, gravitational time dilation is something that is seen visually.

The basic cause of this effect is the law that every observer must see that light propagates with the same speed. No explanation 'why' is offered for this law, it is a first principle which (so far) agrees with experiments.