Challenging Einstein? New Model of Space & Time

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In summary, Steven Bryant has revised the theory of Special Relativity, including correcting the equation E=Mc2. His work has been met with difficulty getting published in established scientific journals, but he is continuing to work on his theory.
  • #1
deckart
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I came across a rather interesting website:

[PLAIN [Broken] ]http://www.relativitychallenge.com/index.htm [Broken] [/URL]

Steven Bryant explains how several of Einstein's equations that support the theory of Special Relativity are in error. He goes as far as to correct them and create a revised model he calls, Complete and Incomplete Coordinate Systems. Even E=Mc2 gets a revision.

"A new model is needed that corrects the problems identifies in Einstein's derivation. However, correcting the problem means correcting the theory as well as the equations. This offers the opportunity to establish a new foundation for understanding space and time."

Understandably, he has a lot of trouble getting his work published in established scientific journals.
 
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  • #2
According to http://www.relativitychallenge.com/math1905Mistake.htm [Broken]), where Einstein has the equation [tex]\xi = c \tau[/tex] (he actually uses a capital V instead of c to represent the speed of light in the original paper, although the translated version I link to replaces V with c) which can be rearranged to be [tex]\tau = \xi / c[/tex], and according to the Lorentz transformation we have [tex]\xi = (x - vt) / \sqrt{1 - v^2/c^2}[/tex], and also [tex]\tau = (t - vx/c^2) / \sqrt{1 - v^2/c^2}[/tex], which is not equal to [tex][(x - vt) / \sqrt{1 - v^2/c^2}] / c[/tex], which is what you get when you divide the formula for [tex]\xi[/tex] by c. The problem is that he isn't understanding the context of these equations. [tex]\xi = c \tau[/tex] is not meant to be a general relation between the two coordinates, it's just an equation for the path of a light beam in the [tex](\xi, \eta, \zeta, \tau)[/tex] coordinate system, whereas the equations [tex]\xi = (x - vt) / \sqrt{1 - v^2/c^2}[/tex] and [tex]\tau = (t - vx/c^2) / \sqrt{1 - v^2/c^2}[/tex] are meant to be part of a general rule (the Lorentz transform) for transforming a point in the (x,y,z,t) coordinate system into the same spacetime point described in terms of the [tex](\xi, \eta, \zeta, \tau)[/tex] coordinate system. As a simpler example, let's use Newtonian physics where the coordinate transformation rule (known as the 'Galilei transformation) is:

x' = x - vt
y' = y
z' = z
t' = t

Suppose that in the (x',y',z',t') coordinate system we have a car moving along the x'-axis at velocity -v, whose position as a function of time will be given by x'(t) = -vt', which can be rearranged as t' = -x'/v. What he is doing is equivalent to then looking at the coordinate transform t' = t, and noting that this expression for t' is not equal in general to -(x - vt)/v, which is what you get when you plug in the coordinate transform x' = x - vt into the formula for the car's motion t' = -x'/v. Of course it's not true in general that t = -(x - vt)/v, but it is true if x and t represent the position of the car at a given time in the (x,y,z,t) coordinate system (in this coordinate system, the car is at rest, so its position as a function of time is given by x(t)=0...you can see that if you plug 0 in for x in t' = -(x - vt)/v, you do get back t' = t). Similarly, although he's of course correct in saying that [tex](t - vx/c^2) / \sqrt{1 - v^2/c^2}[/tex] is not in general equal to [tex][(x - vt) / \sqrt{1 - v^2/c^2}] / c[/tex], they will be equal in the case where x and t represent the coordinates of a light beam whose position as a function of time in the other coordinate system is [tex]\xi (\tau) = c \tau[/tex] (which means its position as a function of time in the (x,y,z,t) coordinate system can be found by solving [tex](x - vt) = c (t - vx/c^2)[/tex] for x, which gives x = ct...if you substitute x=ct into those two formulas that he says aren't equal in general, they become equal, so the equation actually is valid for points along the path of the light beam).
 
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  • #3
I relent, I do not have your understanding of this subject. Do you believe there is validity to Bryant's model?
 
  • #4
There are a zillion crank websites out there all screaming "Einstein was wrong". This is just one of them.
 
  • #5
According to the forum rules, the original post does not belong in this forum. This thread should be closed.
 
  • #6
I see the author of the thread using this Forum to ask a question, not to use it "as a soapbox for those who wish to argue Relativity's validity, or advertise (his) own personal (theory)," which really is forbidden by the Sticky at the top of this Forum. We don't like to stifle honest questioning, and so using a "?" instead of a "." or a "!" will get you some lattitude around here.
 
  • #7
So all someone has to do to get their theory discussed here, is have someone else ask a question about it and post a link? That seems like a weakness in the rules.
 
  • #8
The latitiude only goes so far.
 
  • #9
deckart said:
I relent, I do not have your understanding of this subject.
Well, do you understand the concept of different "reference frames" in classical physics? Like how, if I see a car go by me at 70 mph, I can analyze this using a coordinate system where I am at rest and the car is moving with a speed of 70 mph, but I can also use a coordinate system where the car is at rest and I am moving with a speed of 70 mph? If so, try just focusing on my analogy involving Newtonian physics, you might be able to follow it.
deckart said:
Do you believe there is validity to Bryant's model?
I haven't looked at his model, just at his claims that there is a problem with relativity--I think those claims have no validity. His model might be wrong, or it might just be equivalent to relativity but in a less elegant form (like 'aether' models which make no predictions different than relativity).
 
  • #10
deckart said:
... However, correcting the problem means correcting the theory as well as the equations. ...

This is a BIG problem. Einstein's work is not accepted because people liked it. They didn't initially. The reason Einstein's work is great is because he made useful predictions. His theories were able to be tested, used, enhanced, etc. And that happens with a good theory.

If someone comes along and says, "the accepted value of c is wrong" or "E does not equal mc^2" or the equivalent... it is incumbent on that person to explain why it otherwise looks right in all previous experiments. Please recall that the newest tests of SR, GR and QM - all of which Einstein contributed to - continue to support the theory to increasing levels of precision.

No one is going to waste time with a theory that is obviously contradicted by the facts. Such a theory is brain dead to begin with. Something more than an empty promise of "something better at the end of the road" is required to get folks to take the ideas seriously. People who claim Einstein is wrong are a dime a dozen. Learn more about his work, and you will realize just how far he has brought us over the past 100 years.
 
  • #11
Bryant is just a garden variety crackpot.
 
  • #12
thanks man
 
  • #13
I apologize. I'm new to the forums here (just realized I'd once registered more than a year ago and hadn't been here since). This isn't the right spot for this post.

I have a casual interest and simply found that website while googling the subject. I'd never seen anyone challenge Einstein myself and just wondered if the folks here could see through his calculations. He seemed to support his ideas. But, it's all a bit over my head.

Admin, feel free to move the post :)
 
  • #14
deckart said:
I apologize. I'm new to the forums here (just realized I'd once registered more than a year ago and hadn't been here since). This isn't the right spot for this post.

I have a casual interest and simply found that website while googling the subject. I'd never seen anyone challenge Einstein myself and just wondered if the folks here could see through his calculations. He seemed to support his ideas. But, it's all a bit over my head.

Admin, feel free to move the post :)


Einstein's two relativity theories are supported by just tons of experiments, as has been discussed ad nauseum on this subforum, look up the threads. People who want to propose alternative theories on Physics Forums have to present their theories to a committee and show why they are at least well founded. To date the only alternative theory that has passed the test is Self-Creation Cosmology (SCC). This gives the same results to all prior tests as GR, but will be distinguished from it - pro or con - by the geodetic curvature part of the Gravity Probe B experiment, which has just finished data collection and begun the data analysis work.
 
  • #15
Zanket said:
So all someone has to do to get their theory discussed here, is have someone else ask a question about it and post a link? That seems like a weakness in the rules.

As Tom was saying, we'll make judgement calls. There's a difference between someone asking an honest question about something he/she has not seen before and someone trying to sneak in their pet crackpot theory. The former case can be educational/informative whereas the latter is not welcome here.

selfAdjoint said:
To date the only alternative theory that has passed the test is Self-Creation Cosmology (SCC).
For those interested, there is already a topic in the GA&C forum started on this.
 
  • #16
My name is Steven Bryant and I am the author of the www.RelativityChallenge.com site. I came across this posting and thought I would post a brief reply.

Last year, Jesse M. (at least I think it was this Jesse) and I had a very good conversation about my derivation. (Note: Jesse's position is presented previously in this thread.)

The basic premise behind my finding is that Einstein created his "fixed-point" equation for xi by starting with the "wave-front" equation xi=c*tau. During the derivation, Einstein simply performs several algebraic substitutions to express tau in terms of x, t, and v. The result is an expression of the general equation xi=c*tau as a specific instance of xi where tau is expressed in terms of x, t, and v. Einstein expresses this specific instance as xi=(x-vt)/sqrt(1-v^2/c^2) and defines this as his fixed-point equation for the x coordinate. Since this is considered his "fixed-point" equation, we should be able to express the specific instance of tau that corresponds to this value in terms of x, t, and v by dividing xi by c. However, xi/c does not always equal the stand-alone value for tau that Einstein presents in his paper. I suggest that this is a mathematical problem (see FAQ A19 on my website for more information).

While I have attempted to addressed this point on my web site, I recognized that not everyone agrees with my interpretation due to the accepted "meaning" already associated with each equation or variable. My position was, and still is, that the meaning doesn't trump a math rule violation. What I have found interesting is that when I've decoupled the equations from this "meaning" by changing the variables (for example, replace x with a, t with m, etc...) so that they don't readily look like Einstein's transformation equations and then ask about the validity of my finding, I get universal agreement that this is a math rule violation.

I believe that a theoretical challenge to SR without experimental support will eventually fail. That said, in my analysis of the Michelson-Morley experiment, I have found that their expected result equation did not compensate for the "superposition of waves" principle. I believe they detected an Earth velocity of 30 km/s. If my reanalysis proves to be correct, then this experiment, which is widely accepted as supporting SR, could end up supporting a contrary conclusion. My paper, which has been accepted for publication, is available on my website.

I am happy to join the conversation - regardless of whether in the end I am right or wrong.

Thank you for allowing me to post my reply on your forum.

Best Regards,
Steven Bryant
www.RelativityChallenge.com
email@relativitychallenge.com
 
  • #17
sbryant said:
My name is Steven Bryant and I am the author of the www.RelativityChallenge.com site. I came across this posting and thought I would post a brief reply.

Last year, Jesse M. (at least I think it was this Jesse) and I had a very good conversation about my derivation. (Note: Jesse's position is presented previously in this thread.)

The basic premise behind my finding is that Einstein created his "fixed-point" equation for xi by starting with the "wave-front" equation xi=c*tau. During the derivation, Einstein simply performs several algebraic substitutions to express tau in terms of x, t, and v. The result is an expression of the general equation xi=c*tau as a specific instance of xi where tau is expressed in terms of x, t, and v. Einstein expresses this specific instance as xi=(x-vt)/sqrt(1-v^2/c^2) and defines this as his fixed-point equation for the x coordinate. Since this is considered his "fixed-point" equation, we should be able to express the specific instance of tau that corresponds to this value in terms of x, t, and v by dividing xi by c. However, xi/c does not always equal the stand-alone value for tau that Einstein presents in his paper. I suggest that this is a mathematical problem (see FAQ A19 on my website for more information).

While I have attempted to addressed this point on my web site, I recognized that not everyone agrees with my interpretation due to the accepted "meaning" already associated with each equation or variable. My position was, and still is, that the meaning doesn't trump a math rule violation. What I have found interesting is that when I've decoupled the equations from this "meaning" by changing the variables (for example, replace x with a, t with m, etc...) so that they don't readily look like Einstein's transformation equations and then ask about the validity of my finding, I get universal agreement that this is a math rule violation.

In other words, you redefined something according to whatever you wish. And then you found it wrong.

This is a nasty thing to do.

I believe that a theoretical challenge to SR without experimental support will eventually fail. That said, in my analysis of the Michelson-Morley experiment, I have found that their expected result equation did not compensate for the "superposition of waves" principle. I believe they detected an Earth velocity of 30 km/s. If my reanalysis proves to be correct, then this experiment, which is widely accepted as supporting SR, could end up supporting a contrary conclusion. My paper, which has been accepted for publication, is available on my website.

Sorry, your website has gotten more advertisement on here than it deserves. Either you clearly cite where your paper has been published (I certainly didn't see something this important in PRL lately) on here, or refrain from referring to it at all.

This thread is closed. Please submit this "theory" to the IR forum per our guidelines.

Zz.
 

1. What is the current model of space and time proposed by Einstein?

The current model of space and time proposed by Einstein is known as the theory of general relativity. It states that the fabric of space and time is curved by the presence of mass and energy, and this curvature is what we experience as gravity.

2. What is the new model of space and time challenging Einstein's theory?

The new model of space and time, known as the theory of loop quantum gravity, challenges Einstein's theory by proposing that space and time are not continuous but instead made up of tiny, discrete units. It also suggests that gravity is not a fundamental force, but rather an emergent phenomenon.

3. How does the new model explain black holes and the Big Bang?

The new model of space and time is able to explain black holes and the Big Bang by incorporating quantum mechanics into the theory of gravity. It suggests that black holes have a discrete, quantized structure and that the Big Bang was not a singularity, but rather a "big bounce" from a previous universe.

4. What evidence supports the new model of space and time?

There is currently no direct evidence that supports the new model of space and time. However, the theory is able to reconcile some of the issues and paradoxes that arise when trying to combine quantum mechanics and general relativity, and it is actively being researched and tested by scientists.

5. How does the new model impact our understanding of the universe?

The new model of space and time has the potential to greatly impact our understanding of the universe. It challenges our current understanding of gravity and the fundamental nature of space and time, and it may provide a more complete and unified theory of the universe when combined with other theories such as quantum mechanics and the theory of cosmological inflation.

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