On Lorentz transforms.

Ilya Geller · September 4, 2022

Lorentz transformations are important and needed only if the distances between objects are observed, which leads to the accounting of acceleration and energy. That is, we are talking about external observation in relation to objects. At the same time, the objects themselves are considered as material points.
But it has already became possible to consider objects as points of accumulation, that is all changes are considered through what is happening inside the object. Then the Lorentz transformations are no longer needed.
There are two theories in Analytic Philosophy, External and Internal Relations. The first works with external observations, the second with internal.

Mitcher · September 4, 2022

31 minutes ago, Ilya Geller said:

Lorentz transformations are important and needed only if the distances between objects are observed, which leads to the accounting of acceleration and energy. That is, we are talking about external observation in relation to objects. At the same time, the objects themselves are considered as material points.
But it has already became possible to consider objects as points of accumulation, that is all changes are considered through what is happening inside the object. Then the Lorentz transformations are no longer needed.
There are two theories in Analytic Philosophy, External and Internal Relations. The first works with external observations, the second with internal.

Yes, my interest here was purely in terms of observed intervals of space-time and what it implies as a fundamental level. We definitely have a huge problem there since space and time, which are the bases of all our units, are circular defined. There are no intrinsic definitions for them.

Ilya Geller · September 4, 2022

3 minutes ago, Mitcher said:

Yes, my interest here was purely in terms of observed intervals of space-time and what it implies as a fundamental level. We definitely have a huge problem there since space and time, which are the bases of all our units, are circular defined. There are no intrinsic definitions for them.

Exactly! Right to the point! This is the reason why I proposed my Quantitative theory — to count the number of elements in bodies and register external changes through changes within bodies, within the number. Indeed, the number of elements is a Natural number. Therefore, the measurement of quantity is objective! Then you can abandon the measurement of distance, speed and other things (like energy) because it is subjective, it is done in the term of Irrational numbers.

**swansont** · September 4, 2022

7 minutes ago, Ilya Geller said:

This is the reason why I proposed my Quantitative theory

!

Moderator Note

Which is locked, and you were told not to bring it up again.

NTuft · September 18, 2022

On 8/21/2022 at 12:03 PM, Mitcher said:

I'am still working on it and I'am not sure somebody tried to show Lorentz transforms, ds invariance and velocities composition in a single coherent numerical piece of work.

On 8/18/2022 at 3:45 PM, Mitcher said:

I don't conform that it's not possible to draw a simple working space-time diagram where Lorentz relationships, velocities addition and conserved ds would be obvious. I understand of course that you would need many more dimensions than a piece of paper can offer.

On 8/20/2022 at 11:39 AM, Mitcher said:

Hi. With the help of the many answers I got from people here and the numerical exemple from Peter Collier’s book I was able to close this simple calculation for the first time, founding v’ = - v and ds = ds’ as it should be. Before that I was mixing v, x and t the wrong way. Only glitch is that he is using c = 1 and hence c squared also equals 1 but I think it will work if one use any number larger than 1 and v.

Is this ds arclength?

Quote

es, my interest here was purely in terms of observed intervals of space-time and what it implies as a fundamental level. We definitely have a huge problem there since space and time, which are the bases of all our units, are circular defined. There are no intrinsic definitions for them.

You're speaking here under relativity's concern with spacetime bound together? Is that why you say they're circular defined?

NTuft · September 19, 2022

Sorry, this is basic Lorentz ds, I see from Studiot in a book by Eddington,
"The interval $svg.image?ds$ between two neighbouring events with coordinates $svg.image?(x_{1},x_{2},x_{3},x_{4})$ and $svg.image?(x_{1}+dx_{1},x_{2}+dx_{2},x_{3}+dx_{3},x_{4}+dx_{4})$ in any coordinate system is given by $svg.image?ds^{2}=g_{11}dx_{1}^{2}+g_{22}dx_{2}^2+g_{33}dx_{3}^2+g_{44}dx_{4}^{2}+2g_{12}dx_{1}dx_{2}+2g_{13}dx_{1}dx_{3}+2g_{14}dx_{1}dx_{4}+2g_{23}dx_{2}dx_{3}+2g_{24}dx_{2}dx_{4}+2g_{34}dx_{3}dx_{4}.......$

Where the coefficients $svg.image?g_{11}$ , etc. are functions of x1,x2,x3,x4. That is to say, ds²is some quadratic function of the differences of coordinates.

Edited September 19, 2022 by NTuft

studiot · September 19, 2022

9 hours ago, NTuft said:

Sorry, this is basic Lorentz ds, I see from Studiot in a book by Eddington,
"The interval $svg.image?ds$ between two neighbouring events with coordinates $svg.image?(x_{1},x_{2},x_{3},x_{4})$ and $svg.image?(x_{1}+dx_{1},x_{2}+dx_{2},x_{3}+dx_{3},x_{4}+dx_{4})$ in any coordinate system is given by $svg.image?ds^{2}=g_{11}dx_{1}^{2}+g_{22}dx_{2}^2+g_{33}dx_{3}^2+g_{44}dx_{4}^{2}+2g_{12}dx_{1}dx_{2}+2g_{13}dx_{1}dx_{3}+2g_{14}dx_{1}dx_{4}+2g_{23}dx_{2}dx_{3}+2g_{24}dx_{2}dx_{4}+2g_{34}dx_{3}dx_{4}.......$

Where the coefficients $svg.image?g_{11}$ , etc. are functions of x1,x2,x3,x4. That is to say, ds²is some quadratic function of the differences of coordinates.

The quote from Eddington was a discussion of why the general quadratic is not used in relativity.

For those who want a modern accessible mathematical treatment I recommend MacComb.

Since I see that there has been some discussion about light cones and causality and relativity diagrams that are simple here is his version.

The book is great as it goes right the way through from Gaileo, Newton, Lorenz, Einstein, FourVectors, Simple GR geometry and curved triangulation, yet is rigerous enough.

Some fun relativistic calculations include the relativistic Compton Effect and "When Photon meets Proton head on".

McComb.jpg.fa3f74f32b2152cdae95a24d610eb984.jpg intervals_causality.jpg.76e4e044c9c3531264cebf51c8085e2d.jpg

NTuft · September 19, 2022

Thank you, @studiot, for various explanations and recommendations. I think I see it there and will need more study.

Mitcher · September 20, 2022

On 9/19/2022 at 12:32 AM, NTuft said:

Is this ds arclength?

I'am not using hyperbolic trig here.

On 9/19/2022 at 12:32 AM, NTuft said:

Is this ds arclength?

You're speaking here under relativity's concern with spacetime bound together? Is that why you say they're circular defined?

Not even that, I'am talking about the most basic definition : distance is the space interval covered in a certain time by a mobile with velocity v, and time is the duration measured by a clock of a mobile covering a certain distance with velocity v. This is the best we have to define space and time.

Mitcher · September 20, 2022

On 9/19/2022 at 12:35 PM, studiot said:

Since I see that there has been some discussion about light cones and causality and relativity diagrams that are simple here is his version.

Note that in the diagram you posted above it is not specifically stipulated which path a photon emitted at the vertex will follow. Is it the space line X or the space-time x = ct one ? Not everybody agreed on this here.

md65536 · September 21, 2022

11 hours ago, Mitcher said:

time is the duration measured by a clock of a mobile covering a certain distance with velocity v. This is the best we have to define space and time.

What is the time measured by a clock moving 0 m with velocity 0 m/s? How would you define an hour measured with a stationary clock? If time can be measured without motion, why would the "most basic" definition require motion?

Mitcher · September 21, 2022

4 hours ago, md65536 said:

What is the time measured by a clock moving 0 m with velocity 0 m/s? How would you define an hour measured with a stationary clock? If time can be measured without motion, why would the "most basic" definition require motion?

If there is no motion then you only have time to characterize time : time is the time you measure time is the time.... Same for space. With Mass they form the basis of all our dimensional units but we have no precise idea of what space and time intrinsic nature are. Once this is acknowleged then we should admit they could be fundamentally something very different. Is time really a 1D something binded onto a 4D something ? Is it linear, circular, limitless ? This is somehow a childish representation and physicists are starting to admit it, however who is working on researching the true nature of space-time ?

NTuft · September 23, 2022

On 9/21/2022 at 10:12 AM, md65536 said:

What is the time measured by a clock moving 0 m with velocity 0 m/s? How would you define an hour measured with a stationary clock? If time can be measured without motion, why would the "most basic" definition require motion?

On 9/21/2022 at 3:04 PM, Mitcher said:

If there is no motion then you only have time to characterize time : time is the time you measure time is the time.... Same for space. With Mass they form the basis of all our dimensional units but we have no precise idea of what space and time intrinsic nature are. Once this is acknowleged then we should admit they could be fundamentally something very different. Is time really a 1D something binded onto a 4D something ? Is it linear, circular, limitless ? This is somehow a childish representation and physicists are starting to admit it, however who is working on researching the true nature of space-time ?

to paraphrase @swansont, "time is the integral of frequency".

Quote

For cyclical processes, such as rotation, oscillations, or waves, frequency is defined as a number of cycles per unit time. In physics and engineering disciplines, such as optics, acoustics, and radio, frequency is usually denoted by a Latin letter f or by the Greek letter $svg.image?\nu$ or ν (nu) (see e.g. Planck's formula).

The relation between the frequency and the period,T, of a repeating event or oscillation is given by
$svg.image?f=\frac{1}{T}$

f, units Hz, or s(econds)^-1, ergo, period T in units s¹

I think vibration is more fundamental than distance. What about distance as in wavelength?

I don't think I agree that time needs a motion -- it sounds like you're referencing speed. I think I agree with @md65536 that we can simply, arbitrarlly, define a period, and then we have a time period... though in some fashion this may entail an abstract clock.

Now, as for space, @Mitcher, do you suppose we can look at geometry à la mode de group theory, as non-circular defined? Could it not be said it is self-sufficient, that it is defined through mathematics, or do you suppose there is recursion there to circular definition?

exchemist · September 23, 2022

2 hours ago, NTuft said:

to paraphrase @swansont, "time is the integral of frequency".

f, units Hz, or s(econds)^-1, ergo, period T in units s¹

I think vibration is more fundamental than distance. What about distance as in wavelength?

I don't think I agree that time needs a motion -- it sounds like you're referencing speed. I think I agree with @md65536 that we can simply, arbitrarlly, define a period, and then we have a time period... though in some fashion this may entail an abstract clock.

Now, as for space, @Mitcher, do you suppose we can look at geometry à la mode de group theory, as non-circular defined? Could it not be said it is self-sufficient, that it is defined through mathematics, or do you suppose there is recursion there to circular definition?

The integral, with respect to t, of 1/t is: ln t +C, surely?

Edited September 23, 2022 by exchemist

**swansont** · September 23, 2022

On 9/21/2022 at 6:04 PM, Mitcher said:

If there is no motion then you only have time to characterize time : time is the time you measure time is the time

And yet we don't rely on motion to characterize time; great effort has been made to reduce motion of atoms or ions in clocks over the years, since it contributes to a frequency error in the clocks.

NTuft · September 23, 2022

On 9/20/2022 at 2:14 PM, Mitcher said:

I'am not using hyperbolic trig here.

[...]

I see you say, "...the classical Lorentz...". To reformulate, what is this ds; ds invariance you refer to?

6 hours ago, exchemist said:

The integral, with respect to t, of 1/t is: ln t +C, surely?

I think we have to ask, are we actually looking at a function there? We have an inverse relation equated, and I proposed that we were going to select a value, T, to create an arbitrary frequency or 'time period'. I don't think the bare calculus does us much good here, but I always think it is worth the exercise.

What is it we would want to see from this integral? I'd say we want the summation of successive periods, creating an interval of time. Similarly, if we had it graphed appropriately, we could say we want the area under the curve. However, graphing the function here as 1/x (and note: our T selected above is not a variable, per se, we had chosen a specific value) we have I think the rectangular hyperbola. I do not think this function serves us for our abstract idea of a time period, but maybe I am not thinking broadly enough.

Mitcher · September 23, 2022

8 hours ago, swansont said:

And yet we don't rely on motion to characterize time; great effort has been made to reduce motion of atoms or ions in clocks over the years, since it contributes to a frequency error in the clocks.

You are speaking about measuring intervals of time. Time and energy and space lack comprehensive definitions that would include their fundamental nature, yet we can measure them with smaller and smaller accuracy so they don't seem to form a lattice albeit it cannot be excluded either. So what is it ?

14 hours ago, NTuft said:

think vibration is more fundamental than distance. What about distance as in wavelength?

I don't think I agree that time needs a motion -- it sounds like you're referencing speed.

Vibration is precisely a form of motion, and yes, I definitely reference to speed. A time-measuring device has to be in motion, it merely compares motions between them and gives the measurement in ratios. The clock turns in phase with Earth for instance.

On 9/21/2022 at 7:12 PM, md65536 said:

What is the time measured by a clock moving 0 m with velocity 0 m/s?

If a clock is not moving then it is broken and cannot measure anything. This would apply for an atomic clock or any other technologies.

**swansont** · September 24, 2022

4 hours ago, Mitcher said:

You are speaking about measuring intervals of time. Time and energy and space lack comprehensive definitions that would include their fundamental nature, yet we can measure them with smaller and smaller accuracy so they don't seem to form a lattice albeit it cannot be excluded either. So what is it ?

I can’t parse this. What does this have to do with the discussion?

4 hours ago, Mitcher said:

Vibration is precisely a form of motion, and yes, I definitely reference to speed. A time-measuring device has to be in motion, it merely compares motions between them and gives the measurement in ratios. The clock turns in phase with Earth for instance.

If a clock is not moving then it is broken and cannot measure anything. This would apply for an atomic clock or any other technologies.

Motion isn’t absolute, so what motion is required?

Mitcher · September 29, 2022

On 9/24/2022 at 2:10 AM, swansont said:

I can’t parse this. What does this have to do with the discussion?

Well, it has everything to do with above discussion. Basically how do we operationnaly measure time ? What are its observables ? If time is quantized down to some scale instead of flowing-like we might take a different approach.

On 9/24/2022 at 2:10 AM, swansont said:

Motion isn’t absolute, so what motion is required?

Time is not absolute either, it differs according to the gravitational potential, or to the velocity of the observer, and maybe to its distance in the cosmological sense too.

**swansont** · September 29, 2022

5 minutes ago, Mitcher said:

Well, it has everything to do with above discussion. Basically how do we operationnaly measure time ? What are its observables ? If time is quantized down to some scale instead of flowing-like we might take a different approach.

Time is not absolute either, it differs according to the gravitational potential, or to the velocity of the observer, and maybe to its distance in the cosmological sense too.

I notice that you didn’t answer the questions. All you did was deflect.

Mitcher · September 30, 2022

17 hours ago, swansont said:

I notice that you didn’t answer the questions. All you did was deflect.

Ah come on, I'am not here for the sheer pleasure of arguing. What question do you mean, is it "Motion isn’t absolute, so what motion is required?" ? I thought I had honnestly answered. In my simple understanding any constant motion is needed in order to measure a slice of time, a clock has motions all inside it.

On 9/23/2022 at 4:43 PM, NTuft said:

I see you say, "...the classical Lorentz...". To reformulate, what is this ds; ds invariance you refer to?

I basically mean the covariant Lorentz equation for space-time coordinates valid in all inertial reference frames, the only distance in space-time all observers agree on.

Edited September 30, 2022 by Mitcher
added word

**swansont** · September 30, 2022

1 hour ago, Mitcher said:

Ah come on, I'am not here for the sheer pleasure of arguing. What question do you mean, is it "Motion isn’t absolute, so what motion is required?" ? I thought I had honnestly answered. In my simple understanding any constant motion is needed in order to measure a slice of time, a clock has motions all inside it.

But that's not the point. Yes, clocks have motions, but your claim is that motion is required in order for clocks to work, i.e. it's a fundamental requirement, rather than being some consequence or practical limitation that we have to live with.

Why would a motionless atom or ion not be able to tell time?

And the idea suggests that less motion is bad for clocks, when that's the opposite of truth. Less motion of the atoms or ions has made for better clocks.

And what does "how we operationally measure time" have to do with your mention of time being a lattice, whatever that's supposed to mean? The "fundamental nature" of time, space and energy is a matter of philosophy (metaphysics), not physics, so blaming physics for not having such answers is misguided.

Mitcher · October 1, 2022

On 9/30/2022 at 6:22 PM, swansont said:

But that's not the point. Yes, clocks have motions, but your claim is that motion is required in order for clocks to work, i.e. it's a fundamental requirement, rather than being some consequence or practical limitation that we have to live with.

Why would a motionless atom or ion not be able to tell time?

And the idea suggests that less motion is bad for clocks, when that's the opposite of truth. Less motion of the atoms or ions has made for better clocks.

And what does "how we operationally measure time" have to do with your mention of time being a lattice, whatever that's supposed to mean? The "fundamental nature" of time, space and energy is a matter of philosophy (metaphysics), not physics, so blaming physics for not having such answers is misguided.

Apparently i expressed myself badly, sorry, i didn't mean that some sort of kinetic is requested in order for clock to work but in order to measure an interval of time, it is a subtle difference. I have no idea how a motionless anything, be it atom or particle, could possibly measure time. A caesium atomic clock counts the number of its cycles for instance, and an electronic transition cannot be completely at standstill in my understanding. Then i do not understand your view that investigating the nature of time could be unscientific, to me it's quite the opposite. For instance i did read some research where it was investigated if time could not be of a quantized nature. If so, it could not have no consequences on our understanding of physics.

**swansont** · October 2, 2022

4 hours ago, Mitcher said:

Apparently i expressed myself badly, sorry, i didn't mean that some sort of kinetic is requested in order for clock to work but in order to measure an interval of time,

Since a clock measures time, you can’t apply this to time but not the clock.

4 hours ago, Mitcher said:

it is a subtle difference. I have no idea how a motionless anything, be it atom or particle, could possibly measure time. A caesium atomic clock counts the number of its cycles for instance, and an electronic transition cannot be completely at standstill in my understanding.

It’s not the same thing to note that things move, and to say that the motion is required.

4 hours ago, Mitcher said:

Then i do not understand your view that investigating the nature of time could be unscientific, to me it's quite the opposite. For instance i did read some research where it was investigated if time could not be of a quantized nature. If so, it could not have no consequences on our understanding of physics.

Investigating time is scientific, or can be, but contemplating the fundamental nature of things is philosophy. There are things that science can’t investigate, and not because of technological limitations. Science models the behavior of nature, since it’s only the behavior that we can observe and measure.

Mitcher · October 2, 2022

20 hours ago, swansont said:

It’s not the same thing to note that things move, and to say that the motion is required.

To measure intervals of time you do need a working clock, IOW a moving clock, IOW you need movement, a constant, cyclic one. I do not think i'am saying anything esoteric here. If you input a badly defined time into your model you will get a badly defined time in the output, so to know if time is a fundamental element of reality or if it is illusory as an emerging structure from more fundamental strata is... fundamental i guess.

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