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Lorentz Transformation should be at the top of page
In my opinion the Lorentz transformation itself should appear at the top of the page, since it is the subject matter at hand. Helps if one simply wants a quick reference.
Hope I formatted this correctly - It's been a while since I've been here. — Preceding
unsigned comment added by
Scot.parker (
talk •
contribs) 06:11, 29 April 2018 (UTC)reply
Almost
, but please put new talk page messages at the bottom of talk pages and sign your messages with four tildes (~~~~) — See
Help:Using talk pages. Thanks.
Hi, I also think not only the short version should be there but the full version. I have seen a nice succinct version written in index notation if someone is worried about space
petite (
talk) 10:47, 10 January 2022 (UTC)reply
Question
So, I'm not too knowledgeable when it comes to science and math but I would like to know; did Lorentz actually create these formulas or where they simply named after him? — Preceding
unsigned comment added by
2600:1700:69C1:2A00:CD3F:6125:720C:780B (
talk) 21:59, 19 June 2018 (UTC)reply
Please
sign all your talk page messages with four tildes (~~~~) — See
Help:Using talk pages. Thanks.
I think that section gives a false idea of the Lorentz transformations , based on the fact that the boosted observer F’ is supposed to measure time intervals by observing a clock at rest in F !
But why should he do that ? He simply takes his own clock (wristwatch time) ! Which of course runs at the same rate than the clock at rest in F !
And by using his own clock he will measure the correct proper time in F’ !
The Lorentz transformations are an intrinsic Physical property of Spacetime! That is completely forgotten in the traditional presentations !
Good point. I have
reworded the paragraphs to avoid the ambiguous "boosted observer" and to make sure that "ticks" refer to single events, so that time intervals are measured "between two ticks". I also changed the order to remain closer to the standard sources. -
DVdm (
talk) 08:16, 11 October 2018 (UTC)reply
Why not GA ?
The Lorentz Transformation article is very math oriented. But you failed to mention the Geometric Algebra (GA) approach , which is much easier than the tensorial method. For example , I could show you , based on many papers by Hestenes, Doran , ... that all the very basic results of Special Relativity , time dilation , length contraction , time and length units , are contained in a single GA relation
e’0 e0= e’0 . e0 + e’0∧e0
But sorry , I will not do so , because that could be qualified original research !
For whom are you writing, man???????? Only for yourself, I guess. — Preceding
unsigned comment added by
Koitus~nlwiki (
talk •
contribs) 19:42, 8 April 2019 (UTC)reply
OK I will try.
We consider two references frames , both pseudo-orthogonal.
→
We define by (3) and we guess that is indeed the Lorentz factor.
We notice that the vector is decomposed into a vector parallel to , and a vector orthogonal to it :
→
We guess now that is the euclidian velocity wich represents the movement of the f system :
In fact v is a bivector , and :
a scalar .
Thus, as we guessed , is in accordance we the definition of v .
It is now an easy task to deduce the Lorentz transformations and demonstrate the reciprocity.
Imagine a trajectory from (0,0)to .What will be the time coordinate in the frame ? You simply project orthogonally the vector on the vector and you find :
The reciprocity is obvious with (3) and the fact that we can imagine the frame moving backwards with velocity .
The Clifford (geometric) algebra approach to spacetime physics advocated by Hestenes, Baylis and others[1][2] would be worth a separate article. There does exist a rather unsatisfactory
Wikibooks presentation of the subject that would be a guide what NOT to do in writing a Wikipedia article on physics using geometric algebra.
Prokaryotic Caspase Homolog (
talk) 23:11, 11 May 2019 (UTC)reply
^Baylis, William E. (2012). Clifford (Geometric) Algebras: with applications to physics, mathematics, and engineering. Springer Science & Business Media.
See Hestenes and Doran for free on : geocalc.clas.asu.edu and geometry.mrao.cam.ac.uk
Chessfan (
talk) 06:20, 12 May 2019 (UTC)reply
Corrected First Equation
The first equation reads
which, on inspection, is incorrect. Note the physical units within the parenthesis must evaluate to time, but the last term has physical units that evaluate to time over velocity. This is due to the squaring of the speed of light in the denominator of the last term, which is apparently a typo. I have removed that square.
See the literature. I have
restored the correct equation. -
DVdm (
talk) 08:49, 29 September 2020 (UTC)reply
Whoops, it seemed so obvious in the middle of the night, and I did a quick web search at the time to verify the equation that seemed to validate what I thought at the time. I was reading to be time, not the actual physical units of distance squared divided by time. In the morning, the error seems as clearly false as it seemed to be clear in the middle of the night. Sorry, and thank you, DVdm, for the quick reversion. --
motorfingers :
Talk 15:15, 29 September 2020 (UTC)reply
Middle of the night is a fun place alright, but sometimes a dangerous one
-
DVdm (
talk) 18:17, 29 September 2020 (UTC)reply
Section 6.2
The Tex for section 6.2 (contravariant vectors) is not showing the "-" on the "-1" in the exponents. It just looks like a " 1" — Preceding
unsigned comment added by
2600:6C44:E7F:1100:F0B3:3663:E21A:A6FE (
talk) 22:37, 2 February 2021 (UTC)reply
If you were using chrome, it is probably poor setups in handling MathML. See discussion in
Pauli matrices.
Cuzkatzimhut (
talk) 22:46, 2 February 2021 (UTC)reply
I see it with Firefox under Windows. --
motorfingers :
Talk 00:52, 3 February 2021 (UTC)reply
Same here mate!
petite (
talk) 10:42, 10 January 2022 (UTC)reply
First equation condition
I think it should be mentioned that the two frames have the same origin at t=0 for the first equation
31.164.189.193 (
talk) 11:19, 13 January 2022 (UTC)reply
Done. Not really needed, but won't do any harm:
[1]. -
DVdm (
talk) 13:29, 13 January 2022 (UTC)reply
I came to this page to comment that the phrase "two frames with the origins coinciding at t=t′=0" is confusing, and found this comment thread.
The coordinates are for spacetime, so the origin is defined as (0, 0, 0, 0), which includes t=0. Saying two frames have the same origin at t=0 is like saying they have the same origin at x=0, or y=0, or z=0.
My concern is that the current text encourages people to think in terms of 3D space with time somehow separate, rather than thinking in term of 4D spacetime.
Maybe "... two frames with the origins coinciding at (0, 0, 0, 0)" would satisfy the original comment, while emphasizing spacetime. On the other hand, given that this is the definition of an origin it is an odd statement.
Subbookkeepper (
talk) 16:18, 14 September 2023 (UTC)reply