• btaf45@lemmy.worldOP
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    1 year ago

    If by “Earth is 4.5 billion years old” it means the time lapse as experienced on earth

    Nope. It means that 4.5 billion years is the roughly the MAXIMUM amount of relative time anything anywhere in the universe in any frame of reference could have experienced since the creation of the Earth. Now obviously it is true that Earth’s reference frame is close enough to that maximum such that the difference is a rounding error of the 4.5 billion years figure. But there is literally nothing in the universe that could have experienced 5 billion years of time since the creation of the Earth, although it is certainly possible to experience only 4 billion years. It is also true that 13.8 billion years is the maximum amount of relative time anything in the observable universe in any frame of reference could have experienced since the big bang.

    I think the author is confusing this with the twin paradox where the traveling twin ages slower.

    I think the author means exactly what he said. Experiencing 5 billion years (more than the maximum) since the Earth’s formation would be impossible in all frames of reference - but experiencing 4 billion (less than the maximum) is possible.

    “what is even two points in time”

    You don’t understand what a point in time means? It is well understood by astrophysicists that there is a maximum amount of relative time that can be experienced between any 2 points in time, just as there is a maximum amount of relative distance that can be experienced between any 2 points in space (no length contraction). It is impossible for time dilation and/or length contraction to be negative.

    One should instead be talking about two events and their space-time coordinates

    You can talk about that if you want. But then you probably won’t learn anything new. This article talks about the implications of the well understood facts by astrophysicists that there exists a maximum relative length between any 2 points in space and also between any 2 points in time and how length contraction is related to time dilation.

    • TauZero@mander.xyz
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      1 year ago

      It means that 4.5 billion years is the roughly the MAXIMUM amount of relative time anything anywhere in the universe in any frame of reference could have experienced since the creation of the Earth.

      Another confusing thing is that NO ONE calculates the age of the Earth this way. People do things like measure isotopes and radioactive decay rates, which gives you the Earth’s age in its own reference frame. No one is messing about with measuring the CMB or calculating galactic flow rates or some such.

      True, for the Earth “the difference is a rounding error”. But imagine if the Earth formed 10 billion years ago, then between age 500 million and 1000 million years some alien pranksters accelerated Earth to near lightspeed and took it on a joy ride around the universe for 6 billion years, then put it back here. All our measurements would still show the Earth is 4.5 billion years old, yet by the article’s calculation it would be 10 billion years old, disproving the article’s entire point!

      I think the author just got confused. The only context where the “maximum amount of relative time” concept comes up is in calculating the age of the universe. It is objectively 13.8GY. There we do look at the CMB to make corrections for our relative speed! This way all observers will agree on that number regardless of their speed, even if their own clocks show less. But the author heard that, got excited, and started trying to apply it to the age of Earth, where it doesn’t serve any use.

      • btaf45@lemmy.worldOP
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        1 year ago

        But imagine if the Earth formed 10 billion years ago, then between age 500 million and 1000 million years some alien pranksters accelerated Earth to near lightspeed and took it on a joy ride around the universe for 6 billion years, then put it back here.

        But we know that did not happen. Sure you could always make outlandish scenarios and say that the CMB could have been put in place to fool us and therefore the elapsed time since the big bang might have actually been 20 billion years.

        I think the author just got confused.

        The author did not get confused. The author knows that aliens did not kidnap the Earth, move it around at light speed without Earth being ripped apart, and then put it back to prank us. The difference between the time that elapsed on Earth and the maximum since the Earth’s creation is a rounding error relative to the 4.5 billion year duration figure. And that is how the author is certain that there is no frame of reference anywhere in the observable universe in which 5.0 billion years elapsed since the creation of the Earth.

        The only context where the “maximum amount of relative time” concept comes up is in calculating the age of the universe. It is objectively 13.8GY.

        That may be the only situation where it comes up for yourself. But the concept of the “maximum amount of relative time” can apply to literally anything just as the “maximum relative distance between two objects in space” can apply to literally anything. You do not have to calculate or to know what the maximum amount of relative time is to know that it exists, and to realize the implications that time is objectively a fundemental part of the universe. The important thing is that there IS a maximum, not whether it is trivial to calculate so you can throw it into your favorite equations.

        People do things like measure isotopes and radioactive decay rates, which gives you the Earth’s age in its own reference frame.

        That is irrelevant though. It is perfectly fine to start with a figure calculating Earth’s age of about ~4.5 billion in its own reference frame. And then it is perfectly fine to take that figure and calculate a 2nd figure where the estimated time dilation is factored in, and notice the difference is a rounding error and therefore the figures for both Earth’s frame and the maximum are ~4.5 billion years. By calculating first the Earth frame figure and then the maximum figure, we know for certain that there is no frame of reference that can exceed approximately 4.5 billion years.

        You are also missing the larger picture which is that generally, time flow rates can be recalculated from one frame of reference to another. To whatever extent we can accurately estimate time dilation figures, we can also estimate time flow rates as a percent of the maximum rate. Then we can use that maximum time flow rate to track a ‘universal time’ outside of our local reference frames. Ideally a space ship computer could be programmed to tell you not only what the travel speed is, but also what the ship’s time flow rate is as a percent of the maximum (both total rate and current rate) and make it easy to sync up time measurements later. No need to check the clocks of 2 space ships when they get together if the computers have it all figured out beforehand.

        • TauZero@mander.xyz
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          1 year ago

          Then we can use that maximum time flow rate to track a ‘universal time’ outside of our local reference frames.

          I still disagree.

          In deep space you encounter an alien spaceship from Zebulon 5, a planet that is 100 light years away and is travelling at 10% lightspeed towards Earth (it’ll miss and pass by, no biggie). You need to synchronize your shipboard clock with Zebulonians. You tell them:

          “We should use Earth’s time, which happens to be the universal time, as it flows the fastest, because Earth is nearly still! The clocks on your Zebulon tick much slower because of your speed.”

          But the Zebulonians reply:

          “No, you should use Zebulonian time! YOUR Earth is moving towards Zebulon, and YOUR Earth clocks tick much slower. Zebulon 5 clocks are the ones that tick the fastest, and our ship clock is synchronized to them. Synchronize your clocks to ours!”

          Now, without reference to the CMB or some CMB proxy like the “average speed of all stars in the galaxy and nearby galaxies”, how would you resolve this dispute? Whose clock is actually faster?

          • btaf45@lemmy.worldOP
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            1 year ago

            “We should use Earth’s time, which happens to be the universal time,

            Earth time is not universal time. Maximum time is universal time. No local reference frame can achieve maximum time.

            Zebulon 5 clocks are the ones that tick the fastest

            They won’t be ticking at maximum time either. No local reference frame can achieve maximum time.

            how would you resolve this dispute? Whose clock is actually faster?

            Neither clock is as fast as the maximum time flow. Planet Earth calculates it’s percent of the maximum. Planet Zebu also calculate their percent of the maximum. To convert you could go from Earth time to maximum time to Zebu time, although I suspect they would already be very close in their percentages. For this purpose you can ignore speed and calculate time dilation using gravitational time dilation + acceleration time dilation. Neither planet is going to be accelerating towards the other. Time dilation due to non-accelerating motion is more optics than real time dilation, because maximum time does not require you to wait for light from another source to travel towards you.

            • TauZero@mander.xyz
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              1 year ago

              Time dilation due to non-accelerating motion is more optics than real time dilation

              I’m afraid it’s both… Just to be clear, you are aware that relativistic time dilation is very much real, right? There is the doppler component AND the relativistic component, the latter of which you can’t get rid of regardless of the correction for perspective. That was the whole weird part with the special relativity, want to be sure we agree here.

              For this purpose you can ignore speed and calculate time dilation using gravitational time dilation

              Hold on, let’s not ignore the speed! I agree that for gravitational time dilation there is a time rate that is the maximum rate possible, which is as far away from any massive bodies as possible - away from planets, away from stars, even away from galaxies, and certainly away from any supermassive black holes. But you haven’t been talking about gravitational time dilation all this time, have you? I was about to suggest doing the opposite: for this purpose let’s ignore the mass of Earth and Zebulon for now as that is negligible, and just focus on the speed, which is very much not! Zebulonians are saying that for every hour on Zebulon 5, only 59 minutes 42 seconds pass on earth! (3600 * (1-0.1**2)**.5) This is way more than some microseconds per year that you accumulate from being in the Earth’s gravity well.

              acceleration time dilation

              What’s that?

              • btaf45@lemmy.worldOP
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                1 year ago

                you are aware that relativistic time dilation is very much real, right?

                I do not agree that 2 objects can both have time flow rates faster or slower than the other. That is impossible, so it is really optics. If 2 objects each think the other is moving towards them at a faster or slower time flow rate, you can ignore that. Because neither has a time flow rate faster than the other even if they both think they do. What matters is (1) time dilation due to acceleration and (2) gravitational time dilation. We do not age faster/slower just because another planet exists. And they would not age faster/slower just because we exist.

                Look at this article below. Your scenario is #1 (2 objects moving past each other) Author says that time APPEARS to pass more slower for the other object. My scenario is #2 (gravitational time dilation). It says your head AGES FASTER than your feet.

                https://bigthink.com/starts-with-a-bang/time-run-slow-early-universe/

                [Time dilation has now been shown to apply in three separate instances. (1). When two objects pass each other at high speeds, each one sees the other as having their clocks dilated, and time appears to pass more slowly for the other, even though each experiences time as normal. (2). When two objects are in different gravitational fields, the one that’s deeper in a gravitational field experiences time passing more slowly than the one in a shallower field, and as a result, your head ages faster than your feet when you stand on Earth. (3). And cosmologically, when a local observer sees a signal emitted from an object across the distant Universe, the expansion of the Universe will both stretch the wavelength of that signal and also stretch it out, in time, when we observe it.]

                For purposes of determining what your time dilation is as a percent of the maximum, you never need to directly compare 2 reference frames and “observe events” or observe light traveling over long distances from another object. You ignore the other planet and compute your percent of the maximum by adding your gravitational time dilation with your time dilation due to acceleration. The other planet does the same. Since neither planet accelerates, it comes down to how big the planets are and the gravitational time dilation that they generate. Since this affect is very small, both planets time flow rates will be very close to the maximum. Let’s say that Earth’s percent is 99.999% of the maximum. Zebu is a bigger planet, so their time flow rate is only 99.998% of the maximum. You simply sync the time by computation. On earth, you add 1 second to every 99,999 seconds to track the maximum. If you then want to go to Zebu’s time flow rate from the maximum, you would then subtract 2 seconds for every 100,000 “maximum time” seconds.

                ! I agree that for gravitational time dilation there is a time rate that is the maximum rate possible, which is as far away from any massive bodies as possible - away from planets, away from stars, even away from galaxies, and certainly away from any supermassive black holes.

                Actually this is not the case. Even a single atom would generate its own gravity field. That is why no matter can ever obtain the “maximum” time flow rate.

                Zebulonians are saying that for every hour on Zebulon 5, only 59 minutes 42 seconds pass on earth!

                That is because they are observing our light moving over large distances, which they don’t need to do. They don’t need to observe us to know what their own time dilation is. They do not age faster or slower just because we exist. And we do not age faster or slower just because they exist. They should be ignoring our planet completely and computing their own time dilation as a percent of the maximum, based on gravitational time dilation.

                • TauZero@mander.xyz
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                  1 year ago

                  I do not agree that 2 objects can both have time flow rates faster or slower than the other. That is impossible, so it is really optics.

                  Great! I’m glad we found your core mistaken belief and this conversation has been productive! The 2 objects do indeed each have time flow rates faster than the other. As to how that impossible paradox is resolved they teach that in a special relativity class or textbook. If you don’t believe me you could post in ask science with “Is special relativity time dilation real or just optics?” and others will confirm.

                  • btaf45@lemmy.worldOP
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                    1 year ago

                    The 2 objects do indeed each have time flow rates faster than the other.

                    They only have the perspective of having a faster time flow rate. If both objects were magically transported together thru a wormhole, their clocks would show the same elapsed time. It would be logically impossible for each clock to be ahead of the other clock. The analogy that explains this is that if 2 people walk away from each other, they both look smaller to each other. But we know that is just optics. They are really the same size as always.

                    You are talking about symetrical time dilation. Symetrical time dilation does not cause differential aging. I am talking about the 2 types of time dilation, both non symetrical, that cause differential aging. Those 2 types of time dilation are (1) gravitational time dilation, and (2) time dilation due to acceleration (which resolves the twin paradox). Symetrical time dilation can be completely ignored in calculating your time flow rate as a percent of the maximum, because it does not cause differential aging. Symetrical time dilation is simply a way to track a difference in perspectives.

                    If you don’t believe me you could post in ask science with “Is special relativity time dilation real or just optics?” and others will confirm.

                    Yes symetrical time dilation is “real” in the sense that it has been defined to be one of the various types of time dilation. But the symetrical time dilation that you are talking about does not cause differential aging as does time dilation caused by acceleration and gravity fields. It is well known that symetrical time dilation does not cause differential aging. It is actually impossible for symetrical time dilation to cause differential aging, because then it wouldn’t be symetrical.

                    https://physics.stackexchange.com/questions/53009/is-time-dilation-an-illusion#:~:text=It has been confirmed by,that time dilation is real.

                    [Gravitational or else called acceleration time dilation, has actual effects on clocks since it slows down matter vibrations and thus time evolution of matter and therefore tick rates on clocks…Kinematic time dilation or else named constant velocity time dilation is a different phenomenon. It is an apparent time dilation effect]

              • btaf45@lemmy.worldOP
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                1 year ago

                Sorry about that. I edited my answer to give you a better answer than my initial one. Fediverse problem.

    • galilette@mander.xyz
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      1 year ago

      Hey, you seem to have a better understanding of the stuff, so perhaps you could point me in the right direction? Here’s my confusion: Let’s say at the inception of the earth, a clock started ticking (event 1), and let’s count earth’s age as up to the moment I made the post right next to that same clock (event 2). By special relativity (so obviously ignoring gravity etc), the interval between the two events is s^2 = t^2 - x^2 where t is the time elapsed on the clock, and x = 0 is the distance traveled by the clock in its own frame (earth’s frame), which is zero. For an observer moving at a constant speed relative to earth, the clock has moved, so x' != 0 (using ' for the moving frame), but the interval s is the same in both frames, so the time elapsed in the moving observer’s frame, between the same two events, must be greater than on the earth clock, t'^2 = s^2 + x'^2 > s^2 = t^2. In other words earth appears older (as measured by the relative time between the said two events) to the moving observer than to someone living on earth. This is where my comment about “two points in time” come from: without the spatial information, I wouldn’t be able to compare different relative times and pick its maximum.

      I’m obviously not an astrophysicist and not familiar with the “well understood facts by astrophysicists” of maximum relative time/space. I suspect from your comment that my interpretation of “relative time” is wrong, but if you could point me to some accessible references, that would be very much appreciated!

      • TauZero@mander.xyz
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        1 year ago

        Using the Lorenz transformation formula, here’s what I get:

        γ = 1/sqrt(1 - (v/c)^2)
        Δs^2 = (cΔt)^2 - Δx^2
        
        ct' = γ (ct - (v/c)x)
         x' = γ (x - vt)
        

        In the Earth’s reference frame, the planet starts at (t=0,x=0) and just stays still for time T (say 4.5 billion years):

        p_i = (0,0)
        p_f = (T,0)
        s^2 = (cT)^2
        

        In the spaceship’s prime frame, we get:

        p_i' = (0,0)
        p_f' = (γT, -γvT)
        s'^2 = (cγT)^2 - (-γvT)^2
             = γ^2 T^2 (c^2 - v^2)
             = T^2 (c^2 - v^2) / (1 - v^2/c^2)
             = T^2 (c^2 - v^2) / (c^2 - v^2) * c^2
             = (cT)^2
        

        I think your problem was you forgot the γ factor, which is still present even when using natural units. Or as the wiki describes it: “As illustrated in Fig 2-3, the boosted and unboosted spacetime axes will in general have unequal unit lengths.”

        Edit: oh wait, you would still be upset that t’ = γT > T = t. Ok then! So using this diagram for example, two time units pass between O and P along the Earth’s red time axis, but 3 time units pass along the spaceship’s green prime time axis, and this is in conflict with the article’s claim that the Earth’s frame is the frame with the maximum rate of time.

        I think the author meant to say you should calculate the time elapsed along the path that ends up back at the same point. If the spaceship were to turn around and return, 6 time units will have elapsed for it here, but 7 time units on earth. I.e. we are in the Twin’s Paradox/relativity of simultaneity territory here, but the important thing is that there is no path for the spaceship where you would see 7 or more time units elapsed, other than staying on Earth.

        • galilette@mander.xyz
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          1 year ago

          Thanks, I think we are actually in agreement here: if you account for the fact that \gamma > 1 in general, then your calculation showed that T' = \gamma T > T, that is, the moving observer in general registers a longer duration T' between the two events than the clock at rest (T). I was just taking a shortcut when I said this should follow from X' != 0 (the -\gamma v T in your calculation).

          Also, thanks for the imagery of aliens taking earth for a joy ride. This might be how we are saved when the sun dies.

          Edit: I think we agree on both accounts as the twin paradox is also the only way I can rationalize the original claim (even said so in my first reply)

          • btaf45@lemmy.worldOP
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            1 year ago

            twin paradox is also the only way I can rationalize the original claim

            The fact that there is a maximum amount of relative time that can elapse between any 2 “events” does not rely on the twin paradox in any way. It doesn’t even depend on movement at all since there is gravitational time dilation and the 2 events don’t even need to be “witnessed” for time to have a particular relative duration between the events. Whichever of 2 different inertial frames of reference has the least amount of gravitational time dilation has the faster time flow rate and is closest to the maximum rate.

            If a piece of matter had no gravitational time dilation at all (which admittedly is impossible) what would be the time flow rate for the object? For simplicity let’s assume it is not accelerating or even moving at all (except for expansion of universe). How would we know it is not moving? Let’s assume (call it a thought experiment) that the universe has a center and boundaries, and that the distance and direction to the center is not changing. This object would have no time dilation, the maximum time flow rate, and experience the longest possible duration of time across any arbitrary points in time.

        • btaf45@lemmy.worldOP
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          1 year ago

          but the important thing is that there is no path for the spaceship where you would see 7 or more time units elapsed, other than staying on Earth.

          That was exactly the point, although I think there are also other ways to prove it. Thanks for expressing this better than I.

      • btaf45@lemmy.worldOP
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        1 year ago

        In other words earth appears older (as measured by the relative time between the said two events) to the moving observer than to someone living on earth.

        It’s fine and to be expected that time passes differently with different levels of time dilation. You might have Reference Frame A where the time flow rate is 99.999% of the maximum and Frame B where the time flow rate is 99.998% of the maximum. The time flow rate in Frame A is faster than B, because A is closer to the maximum rate than B.

        This is where my comment about “two points in time” come from:

        Think of “two points in time” as 2 events in time, and (for simplicity) at the same fixed point in space in your frame of reference (A) and another person’s frame of reference (B). Whichever frame is under the greater influence of gravitational time dilation, will have a slower time flow rate than the other frame. But there is also a maximum amount of time between the 2 events that neither of those 2 frames (or any other frame of reference) can exceed.

        without the spatial information, I wouldn’t be able to compare different relative times and pick its maximum.

        Figuring out the maximum time flow rate between any 2 events or points in time would not be a simple thing at all. You would have to calculate the entire amount of gravitational time dilation of every gravity field in range of your object, and add to that the total amount of time dilation due to acceleration of your object. But just because the total amount of time dilation is not a simple thing to calculate and add to your equations, does not mean that “zero time dilation” == “maximum time flow rate” does not exist nor that there is not a maximum amount of relative time duration between any 2 events/point in time. I assume you agree that there is a maximum amount of relative distance between any 2 objects/points in space right? There is also a maximum amount of relative duration between any 2 events/points in time. And the length contraction that shrinks distance length is related to the time dilation that shrinks time duration.

        but if you could point me to some accessible references that would be very much appreciated!

        I hate to mention reddit here but this reddit comment explains it better than I can.

        https://www.reddit.com/r/cosmology/comments/14dg7yf/saying_that_the_universe_is_138_billion_years_old/joq3n5i/

        [It’s likely based on the proper time of a comoving observer in simplified cosmological solutions of general relativity. A comoving observer is an observer whose ‘motion’ is due to the expansion of the universe, not any motion with respect to the comoving frame. The cosmological solutions are also isotropic and homogenous, so there are no clumps of matter like black holes to influence time - the comoving proper time is the same everywhere and can be considered a maximum time.]