Summit Clock Experiment 2.0: Time is Absolute

Bob Enyart

Deceased
Staff member
Administrator
Rather than leave this sitting on my hard drive, I thought I'd post this updated version on TOL in case anyone wants another shot at it. -Bob Enyart


A Layman Questions Gravitational Time Dilation

* Einstein’s theory of General Relativity indicates that gravity influences time, in that time flows relatively more slowly in a stronger gravitational field as compared to time in a weaker field.

* Actual experiments and observations provide evidence for GR time dilation. For example, clocks at different Earth altitudes run at different rates, thus the mile high atomic clock in Colorado runs a few ticks faster per year than the one close to sea level in Greenwich, England.

* Most physicists and cosmologists accept GR time dilation, and thus, that time is relative to a particular frame of reference.

And in that context, when Googling “Gravitational Time Dilation” I get: Google 7 from AbsoluteAstronomy.com: “Gravitational time dilation is the slowing down of the passage of time anywhere in the gravitational field.” Google 11: “The short and sloppy versions say: "… ‘Time runs slower as you descend into the potential well of a uniform pseudo-force field.’” From Google 9: “The idea of relativity is to throw out the concept of us traveling through time inescapably, and accept time as just another dimension.”

Consider this exaggerated scenario to illustrate my opposition to time dilation, and then I’ll suggest a practical experiment that could test my conclusion.

Two atomic clocks have been running on Earth for billions of years, one at the base of Cheyenne Mountain, and the other at the summit, sitting inside of a well-maintained Chinook cargo helicopter. The clock on the peak has been running faster by a few nanoseconds per year, but over the eons, it has advanced to twenty-four hours ahead of the clock far below, and it’s readout, in year, month, day, hour, minute, second, and nanosecond, is just now turning over to indicate exactly twenty-four hours ahead of the other clock, on a Friday at exactly high noon. This illustrates Einstein’s prediction that time would run relatively slower at a stronger gravitational field, as exists at the bottom of the mountain (we can ignore gravitational anomalies in mountains). Thus, the clock at the mountaintop is now one-day ahead of the clock below. The clocks were installed to sit in virtual perfect longitudinal alignment (at 104-50-01.9000W), so that as the earth orbits the Sun, both clocks cross an imaginary vector from the Sun in unison. The operator of the clock below, who was hired because of his PhD in physics, has just begun reading today’s newspaper. The operator can read today’s paper, because they both exist at the same time. He is alive, and wanting and able to read, and today’s paper has been printed, and just delivered to his facility, and since they are both there, the operator and the paper, at the same time, he can read that paper. However, if he wanted to read tomorrow’s paper, he could not do it immediately, because tomorrow’s paper is twenty-four hours behind him in time. (Behind him is the correct direction. He is ahead of tomorrow paper. Like a NASCAR driver who finishes 24 seconds before another, our operator is here now, a full 24 hours before tomorrow’s paper hits the newsstands. Remember after all, the river of time flows backward, not forward -- from the future through the present into the past. Imagine something floating in that current, like next Christmas, which is in the future, drifting toward the present, but eventually will be remembered only in fading prints in family photo albums. But I digress…) Assuming that the newspaper’s production schedule remains constant with past performance, the operator will have to wait for twenty-four hours to pass before he can actually come into contact with tomorrow’s paper, or for that matter, with anything that is twenty-four hours into the future. Now, back to the clock on the peak. The operator has kept an eye on that clock from it’s installation until today (he’s now near retirement age), and with a telescope, he’s been able to watch the nanoseconds ticking more quickly than those of his clock. (Of course he realizes that with the limitation of the speed of light, he’s seeing the Summit hands move picoseconds after they actually do, and that does not confuse his understanding.) Being an educated man, he believes that time has been flowing faster for the clock above, and that is why the Summit Clock is twenty-four hours ahead of him and his clock.

Now, it seems to me that the operator is confused, and that physicists must actually be referring to some other effect when they say or imply that gravity actually affects time as compared to other frames of reference. The seventh site found by a web search on the topic, (Google 7), states: “Gravitational time dilation is the slowing down of the passage of time.” Seemingly implying that time flows at different rates for the two clocks. If that were literally true, then it seems the two clocks would exist in two different time frames, now separated by twenty-four hours, and the operator at the base shouldn’t even be able to see the clock at the summit, since it is 24 hours ahead of him in time. After all (Feynman and QED notwithstanding), this guy just can’t see that far into the future.

Now THE PLOT thickens! The helicopter (which has been maintained all these years at great taxpayer expense) suddenly transported the Summit Clock to the Base Clock, and the two clocks were set next to each other so that they actually touched! And the contact between the two clocks happened exactly ten minutes after noon on Friday according to the Summit Clock (rounding to the nearest whole second).

So, here is my question. What time would the Base Clock show at the moment that they made contact?

Calvinists, most physicists and evolutionary cosmologists would all answer that at the moment of contact, the Base Clock would read Thursday at 12:10 p.m. Well, even a broken clock is right twice a day. And for what I know of Relativity (not much) they all happen to be correct! Consider how this thought experiment refutes time dilation. Whenever physicists claim that GR proves that gravitational gradients affect time, they are wrong. They don’t. Gravity does not affect time: it affects clocks. And that is not the same thing. If gravity affects only clocks, and not actual time, then like tomorrow’s paper, the Summit Clock would not be one day into the actual future, as compared to the Base Clock; and if it were quickly transported down the mountain (where it would begin ticking off time at the same rate as the other clock), then the Summit Clock would continue to give readouts offset exactly twenty-four hours ahead of the Base Clock. (The brief trip down the mountain had a relatively negligible impact on its timekeeping.) However, if different gravitational gradients truly affected time, and the Summit Clock were truly one day ahead in time of the other, then the helicopter should not be able to bring them into contact after a mere ten minute trip! The duration of the flight was measured at 10 minutes by both clocks within less than a billionth of a second. (Having worked at McDonnell Douglas on the AH-64 Apache attack helicopter, I know a bit of about these machines, enough to state authoritatively that helicopters are not time machines.) If the Summit Clock truly experienced time faster than the Base Clock, then once the helicopter brought the clock to the base of the mountain, at that point, then another twenty-four hours would have to pass by before the operator at the base could even see the Summit Clock sitting there (after returning from lunch, behold, the clock cometh!). So the operator would have waited until Friday, at ten minutes after noon, before he could see the clock suddenly appear on the ground next to his Base Clock. But, that is not what would happen, is it? What actually would have happened is, having packed a sack lunch that day, he saw the clock at the same moment that it was being delivered. The Summit Clock and the Base Clock had been ticking at different rates for billions of years. Yet both had traveled around the Sun the exact same number of times. Both clocks saw the exact same number of sunrises and sunsets! However the Summit Clock’s readout suggested that it had seen one additional sunrise and sunset than had the Base Clock, which of course it had not. The Summit Clock and the Base Clock both revolve around the earth’s axis in the same solar day at the exact same longitude, so to interpret their readouts as measuring different length days is to be confused. Genesis says that God gave us the Sun (and other astronomic bodies) for “seasons, and for days and years.” It turns out that God gave mankind great timekeepers (and less misleading ones than our atomic clocks as interpreted by theorists)! The movements within our solar system give us a more correct understanding of the absolute nature of time than do the ticks of atomic clocks. So, whatever cosmologists are actually trying to say when they speak of time dilation, here is the truth. Gravity does not affect time. Gravity affects clocks.

In this scenario, as with the real world atomic clocks in Greenwich and Boulder (one across the Atlantic, and the other a few miles up Highway 93 from Denver Bible Church and our KGOV.com studio), both clocks exist in the exact same ultimate time reference, and always will, as long as they both shall tick. The false theory of epicycles did a better job of predicting the positions of the planets in the sky as compared to early Copernican calculations, yet epicycles were incorrect. Relativity’s time dilation does a great job of predicting the read out of an atomic clock at various altitudes and accelerations (experimentally, what, to within less than 1% of theoretical performance?) But that does not prove that time is relative. Rather, it proves that gravity affects clocks. Imagine if ancient Eskimos used a seal bladder to keep time, filling it up with water, and counting sixty drips for each minute. (Why sixty? Well, since the earth originally orbited the Sun in exactly 360 days, the ancients divided circles into 360 degrees, and a hexagonal system of time developed, with the day and night divided anciently into 12 hour segments, and measurements of time divided into convenient hexagonal units.) Anyway, occasionally a drunkard would wander by and squeeze the bladder, bringing a native physicist to suggest his theory of alcoholic time dilation! So, both the Eskimo clock and the atomic clock prove the same thing. When exposed to different gravitational gradients (and drunken tantrums), it is the various measuring instruments of time, like atomic clocks, seal bladders, GPS satellites, metabolism, etc., that are affected. A simple experiment is worth a thousand theories, albeit like Schrodinger's Cat, this one is a thought experiment. The Summit Clock and the Base Clock both go around the world in the same day with the exact same duration, so they cannot disagree on the length of a day or of an eon. If this Summit Clock experiment is valid, then we find out that the amateurs are wrong, and also, that the amateurs include a lot of professionals. And Calvinists too. For my interest in all this is theological. Biblically, I have been convinced that time is an eternal attribute of reality, and thus, of God’s existence, seen most easily in that He is relational. And many Calvinists and others teach that God is outside of time existing in an eternal now, and that He created time. So Calvinists commonly quote popular understandings of General Relativity’s time dilation as evidence for their claim that time is not absolute, and thus, God can exist outside of time. So, I have a vested interested in refuting that. Thus I argue that when folks say that time speeds up or slows down in different frames of reference, what they really mean is that stuff affects clocks.

My theological bias does not change the fact the Earth does not orbit the Sun at two different rates simultaneously. In this clock scenario, at exactly high noon on the Friday in question, the two clocks crossed an imaginary vector from the sun in exact unison, as they’ve done every day of the experiment, so they cannot show an actual difference between them in the duration of a day, since they themselves exactly mark the rotation and orbit of the earth, marking the passage of each day. They have been simultaneously crossing such vectors that mark out a single day, and they’ve simultaneously crosses such vectors seven times marking a week, and 365 times (or so) marking a year, and so on, marking out the centuries, millennia, and eons, in exact synchronicity, such that these clocks physically demonstrate zero difference in the length of a day or an eon for the two clocks. Thus, because adding zero plus zero billions of times will never accumulate to a 24-hour difference in time, the variant readouts of the clocks is only superficial, and does not indicate that time ran faster or slower in a different frame of reference, but rather, that gravity affects clocks.

And here is my suggested experiment: let’s hike to the top of 14,110-foot Pike’s Peak and enter the snack bar at the summit, grab the old round wall clock, the one that’s been up there so long that when removed it will leave a clean white circle on the wall. And then we’ll ride the train down to the base of the mountain in Manitou Springs, and rush the old ticking clock a few miles to the Clock Tower at the University of Colorado in Colorado Springs. And when we get there, we will touch the two together, and see if the space-time continuum ruptures, or anything like that.

-Pastor Bob Enyart.com
DenverBibleChurch.com & KGOV.com
 
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Johnny

New member
Bob Enyart said:
Whenever physicists claim that GR proves that gravitational gradients affect time, they are wrong. They don’t. Gravity does not affect time: it affects clocks. And that is not the same thing. If gravity affects only clocks, and not actual time, then like tomorrow’s paper, the Summit Clock would not be one day into the actual future, as compared to the Base Clock; and if it were quickly transported down the mountain (where it would begin ticking off time at the same rate as the other clock), then the Summit Clock would continue to give readouts offset exactly twenty-four hours ahead of the Base Clock. (The brief trip down the mountain had a relatively negligible impact on its timekeeping.) However, if different gravitational gradients truly affected time, and the Summit Clock were truly one day ahead in time of the other, then the helicopter should not be able to bring them into contact after a mere ten minute trip!
The only way you can arrive at the conclusion that one clock should be 24 hours into the future is if you assume that time is static for all observers -- i.e. one 24 hour period for the observer at the peak is exactly another 24 hour period for the other observer at the base. Stated another way, you are exchanging their hours 1 for 1, i.e. a 24 hour period for the peak observer is 24 hours for the summit observer. Following this line of thought, one could rationally conclude that the peak observer should be 24 hours in time ahead of the base observer. And you did just that. But this is a fatal misunderstanding of what relativity teaches, and so naturally you arrive at the wrong conclusion.

Relative time means that in the same number of sunrises and sunsets, each observer actually experiences a different interval of time as measured by whatever clock you chose (dripping water, heart rate, atomic clocks, mechanical clocks, etc.) You seem to be confused on this point -- it doesn't matter whether its an atomic clock or not. It can be any process which changes as a function of time (that includes your existence and all of the interactions with the environment you have). What relativity means is that the length of the day (i.e. sunrise to sunrise) is actually slightly different for each observer.

Yet both had traveled around the Sun the exact same number of times. Both clocks saw the exact same number of sunrises and sunsets! However the Summit Clock’s readout suggested that it had seen one additional sunrise and sunset than had the Base Clock, which of course it had not.
Again, the summit clock's readout would suggest that there was an additional sunrise if and only if you assume the summit clock experiences the sun rise at the same precise interval the base clock does: once every 24 hours. Relativity makes no such assertion. In fact, it says quite the opposite: each observer will experience a different amount of time between each sunrise. So when calculating out how many sunrises should have been seen by a Summit Clock, simply take the time between sunrises and divide it by the time experienced by the observer. When this calculation is done, both observers will agree on the exact number of sunrises regardless of the time they experienced. What they won't agree on is how much time elapsed between each sunrise and how much total time was experienced. This is what it means to say that time is relative.
 
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One Eyed Jack

New member
Johnny said:
The only way you can arrive at the conclusion that one clock should be 24 hours into the future is if you assume that time is static for all observers -- i.e. one 24 hour period for the observer at the peak is exactly another 24 hour period for the other observer at the base. Stated another way, you are exchanging their hours 1 for 1, i.e. a 24 hour period for the peak observer is 24 hours for the summit observer. Following this line of thought, one could rationally conclude that the peak observer should be 24 hours in time ahead of the base observer. And you did just that. But this is a fatal misunderstanding of what relativity teaches, and so naturally you arrive at the wrong conclusion.

Relative time means that in the same number of sunrises and sunsets, each observer actually experiences a different interval of time as measured by whatever clock you chose (dripping water, heart rate, atomic clocks, mechanical clocks, etc.) You seem to be confused on this point -- it doesn't matter whether its an atomic clock or not. It can be any process which changes as a function of time (that includes your existence and all of the interactions with the environment you have). What relativity means is that the length of the day (i.e. sunrise to sunrise) is actually slightly different for each observer.

I hate to say it, but I have to agree with Johnny on this one. An atomic clock is more like a stopwatch than a wristwatch.

Again, the summit clock's readout would suggest that there was an additional sunrise if and only if you assume the summit clock experiences the sun rise at the same precise interval the base clock does: once every 24 hours. Relativity makes no such assertion. In fact, it says quite the opposite: each observer will experience a different amount of time between each sunrise. So when calculating out how many sunrises should have been seen by a Summit Clock, simply take the time between sunrises and divide it by the time experienced by the observer. When this calculation is done, both observers will agree on the exact number of sunrises regardless of the time they experienced. What they won't agree on is how much time elapsed between each sunrise and how much total time was experienced. This is what it means to say that time is relative.

That's my understanding of it.
 

Johnny

New member
I think this is also important to discuss,

Bob Enyart said:
When exposed to different gravitational gradients (and drunken tantrums), it is the various measuring instruments of time, like atomic clocks, seal bladders, GPS satellites, metabolism, etc., that are affected.
This is more of a philosophical issue but I think it is paramount to the issue at hand and really needs to be discussed. What does it mean to say that clocks and things that measure intervals are effected but the interval itself is not effected? It is just as valid to say that the interval itself has changed as it is to say that all our measurements of any given interval have changed. Indeed both statements are functionally equivalent -- in either case any given interval experienced has changed. This is not a "broken clock" issue, it's far far deeper than that. Every periodic event can be used as a clock -- be it our respirations, our heart rate, how long it takes me to tie my shoe (assuming I do it exactly the same each time I do it), how many words per minute I read, how many times a minute I blink, etc. etc. If all of these things change as a result of relativity, what does it mean to say that time hasn't changed, only the things that measure it? It is meaningless.
\
 

fool

Well-known member
Hall of Fame
I just realized this thread has nothing to do with time.



Bob Enyart said:
[For my interest in all this is theological. Biblically, I have been convinced that time is an eternal attribute of reality, and thus, of God’s existence, seen most easily in that He is relational. And many Calvinists and others teach that God is outside of time existing in an eternal now, and that He created time. So Calvinists commonly quote popular understandings of General Relativity’s time dilation as evidence for their claim that time is not absolute, and thus, God can exist outside of time. So, I have a vested interested in refuting that. Thus I argue that when folks say that time speeds up or slows down in different frames of reference, what they really mean is that stuff affects clocks.[/color][/size][/font]
 

Supremum

New member
All physical objects are in some way clocks. And the rate at which they interact with each other slows from the point of view of an outside observer is inversely proportional to their velocity with respect to that observer. Removing measureing devices from the phenomena they measure cuts right at the heart of empiricism itself. :chuckle:
 

One Eyed Jack

New member
Supremum said:
All physical objects are in some way clocks. And the rate at which they interact with each other slows from the point of view of an outside observer is inversely proportional to their velocity with respect to that observer.

That's special relativity. We're talking mostly about general relativity, which has to do with gravity rather than velocity.
 

bob b

Science Lover
LIFETIME MEMBER
Hall of Fame
Johnny said:
I think this is also important to discuss,

This is more of a philosophical issue but I think it is paramount to the issue at hand and really needs to be discussed. What does it mean to say that clocks and things that measure intervals are effected but the interval itself is not effected? It is just as valid to say that the interval itself has changed as it is to say that all our measurements of any given interval have changed. Indeed both statements are functionally equivalent -- in either case any given interval experienced has changed. This is not a "broken clock" issue, it's far far deeper than that. Every periodic event can be used as a clock -- be it our respirations, our heart rate, how long it takes me to tie my shoe (assuming I do it exactly the same each time I do it), how many words per minute I read, how many times a minute I blink, etc. etc. If all of these things change as a result of relativity, what does it mean to say that time hasn't changed, only the things that measure it? It is meaningless.
\

God said that he gave us the stars, planets etc. for the measurement of time.

Are these methods better than ours?
 

aharvey

New member
bob b said:
God said that he gave us the stars, planets etc. for the measurement of time.

Are these methods better than ours?
I'm curious how you would answer your own question, bob, in conjunction with the following question. Do you use the stars and planets etc., or watches and clocks etc.?
 

bob b

Science Lover
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aharvey said:
I'm curious how you would answer your own question, bob, in conjunction with the following question. Do you use the stars and planets etc., or watches and clocks etc.?

I use different methods depending on the purpose, e.g. my sun dial is too heavy to carry around. ;)
 

sentientsynth

New member
johnny said:
Relativity makes no such assertion. In fact, it says quite the opposite: each observer will experience a different amount of time between each sunrise.
I think that pretty much sums it up.

Enyart said:
For my interest in all this is theological. Biblically, I have been convinced that time is an eternal attribute of reality, and thus, of God’s existence, seen most easily in that He is relational.
Non sequitur

Enyart said:
And many Calvinists and others teach that God is outside of time existing in an eternal now, and that He created time. So Calvinists commonly quote popular understandings of General Relativity’s time dilation as evidence for their claim that time is not absolute, and thus, God can exist outside of time. So, I have a vested interested in refuting that. ...
This is true. You do have a vested interest. But ... you're still wrong on both accounts.
 

aharvey

New member
bob b said:
I use different methods depending on the purpose, e.g. my sun dial is too heavy to carry around. ;)
Oops, you only answered half of my query (and flippantly at that); imagine! The other part was to answer your own question:

"God said that he gave us the stars, planets etc. for the measurement of time.

Are these methods better than ours?"

Or are you acknowledging the pointlessness of your own question?
 

Stripe

Teenage Adaptive Ninja Turtle
LIFETIME MEMBER
Hall of Fame
Johnny said:
I think this is also important to discuss, This is more of a philosophical issue but I think it is paramount to the issue at hand and really needs to be discussed. What does it mean to say that clocks and things that measure intervals are effected but the interval itself is not effected? It is just as valid to say that the interval itself has changed as it is to say that all our measurements of any given interval have changed. Indeed both statements are functionally equivalent -- in either case any given interval experienced has changed. This is not a "broken clock" issue, it's far far deeper than that. Every periodic event can be used as a clock -- be it our respirations, our heart rate, how long it takes me to tie my shoe (assuming I do it exactly the same each time I do it), how many words per minute I read, how many times a minute I blink, etc. etc. If all of these things change as a result of relativity, what does it mean to say that time hasn't changed, only the things that measure it? It is meaningless.
I disagree. If, as Johnny says:
  • every periodic event can be used as a clock, and
  • (from his first post) "Relative time means that in the same number of sunrises and sunsets, each observer actually experiences a different interval of time as measured by whatever clock you chose",
then we should be able to prove relativity not through the use of more accurate clocks, but by the use of different methods of timekeeping. Thus we should see human hearts beating faster in higher gravity, at a rate clearly predicted by general relativity. We should see hair growing at different rates under different gravitational situations. All these means of measuring time should be influenced by general relativity.
 

Flipper

New member
bob b said:
I use different methods depending on the purpose, e.g. my sun dial is too heavy to carry around. ;)

Yeah. Not to mention strangely ineffective at night.

Our star, our planet and our moon may provide the reasons for the seasons, but I am not sure they're the best or most effective ways to track time except in a general sense.
 

bob b

Science Lover
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Hall of Fame
aharvey said:
Oops, you only answered half of my query (and flippantly at that); imagine! The other part was to answer your own question:

"God said that he gave us the stars, planets etc. for the measurement of time.

Are these methods better than ours?"

Or are you acknowledging the pointlessness of your own question?

It's not pointless, but it is difficult to answer exhaustively and authoritatively.
 

Flipper

New member
Incidentally, we should have a fairly definitive answer regarding the validity of frame dragging as part of General Relativity this April, when the first results from the Gravity Probe B experiment are likely to be published.

There is significant experimental evidence to support the notion of frame dragging, but this experiment was designed specifically measure the supposed (and predicted) warp in space-time caused by the mass and motion of our planet and will be looking for the relativistic effects of the earth in its local electromagnetic field.

http://einstein.stanford.edu/
 

Johnny

New member
bob b said:
God said that he gave us the stars, planets etc. for the measurement of time.

Are these methods better than ours?
If you needed to time something with accuracy on the order of milliseconds, would you use the stars and planets or a stopwatch?

The answer to your question is no. You know that.
 

aharvey

New member
bob b said:
It's not pointless, but it is difficult to answer exhaustively and authoritatively.
So then if it's too much for you to answer, why'd you bother asking it in the first place?
 
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