What is Lorentz transformation: Definition and 379 Discussions

In physics, the Lorentz transformations are a six-parameter family of linear transformations from a coordinate frame in spacetime to another frame that moves at a constant velocity relative to the former. The respective inverse transformation is then parameterized by the negative of this velocity. The transformations are named after the Dutch physicist Hendrik Lorentz.
The most common form of the transformation, parametrized by the real constant



v
,


{\displaystyle v,}
representing a velocity confined to the x-direction, is expressed as









t





=
γ

(

t




v
x


c

2





)






x





=
γ

(

x

v
t

)






y





=
y





z





=
z






{\displaystyle {\begin{aligned}t'&=\gamma \left(t-{\frac {vx}{c^{2}}}\right)\\x'&=\gamma \left(x-vt\right)\\y'&=y\\z'&=z\end{aligned}}}
where (t, x, y, z) and (t′, x′, y′, z′) are the coordinates of an event in two frames, where the primed frame is seen from the unprimed frame as moving with speed v along the x-axis, c is the speed of light, and



γ
=



(


1




v

2



c

2






)



1





{\displaystyle \gamma =\textstyle \left({\sqrt {1-{\frac {v^{2}}{c^{2}}}}}\right)^{-1}}
is the Lorentz factor. When speed v is much smaller than c, the Lorentz factor is negligibly different from 1, but as v approaches c,



γ


{\displaystyle \gamma }
grows without bound. The value of v must be smaller than c for the transformation to make sense.
Expressing the speed as



β
=


v
c


,


{\displaystyle \beta ={\frac {v}{c}},}
an equivalent form of the transformation is








c

t





=
γ

(

c
t

β
x

)






x





=
γ

(

x

β
c
t

)






y





=
y





z





=
z
.






{\displaystyle {\begin{aligned}ct'&=\gamma \left(ct-\beta x\right)\\x'&=\gamma \left(x-\beta ct\right)\\y'&=y\\z'&=z.\end{aligned}}}
Frames of reference can be divided into two groups: inertial (relative motion with constant velocity) and non-inertial (accelerating, moving in curved paths, rotational motion with constant angular velocity, etc.). The term "Lorentz transformations" only refers to transformations between inertial frames, usually in the context of special relativity.
In each reference frame, an observer can use a local coordinate system (usually Cartesian coordinates in this context) to measure lengths, and a clock to measure time intervals. An event is something that happens at a point in space at an instant of time, or more formally a point in spacetime. The transformations connect the space and time coordinates of an event as measured by an observer in each frame.They supersede the Galilean transformation of Newtonian physics, which assumes an absolute space and time (see Galilean relativity). The Galilean transformation is a good approximation only at relative speeds much less than the speed of light. Lorentz transformations have a number of unintuitive features that do not appear in Galilean transformations. For example, they reflect the fact that observers moving at different velocities may measure different distances, elapsed times, and even different orderings of events, but always such that the speed of light is the same in all inertial reference frames. The invariance of light speed is one of the postulates of special relativity.
Historically, the transformations were the result of attempts by Lorentz and others to explain how the speed of light was observed to be independent of the reference frame, and to understand the symmetries of the laws of electromagnetism. The Lorentz transformation is in accordance with Albert Einstein's special relativity, but was derived first.
The Lorentz transformation is a linear transformation. It may include a rotation of space; a rotation-free Lorentz transformation is called a Lorentz boost. In Minkowski space—the mathematical model of spacetime in special relativity—the Lorentz transformations preserve the spacetime interval between any two events. This property is the defining property of a Lorentz transformation. They describe only the transformations in which the spacetime event at the origin is left fixed. They can be considered as a hyperbolic rotation of Minkowski space. The more general set of transformations that also includes translations is known as the Poincaré group.

View More On Wikipedia.org
Recent contents Top users
  1. Grimble

    Does Einstein implicitly proves himself and the Lorentz Transformation wrong?

    An interesting question maybe, but only in so far as the equations: y' = y and z' = z are concerned. In http://www.bartleby.com/173/11.html" Einstein demonstates that if x= ct then x' = ct' in which he is absolutely correct, but if one were to try and do the same for y' and z' the result...
  2. B

    Prove s^2 = s'^2 using the Lorentz Transformation

    Homework Statement Using the Lorentz transformation, prove that s2 = s'2 Homework Equations s2 = x2 - (c2t2) x' = gamma * (x-Beta*ct) t' = gamma * (t - Beta*x/c) The Attempt at a Solution s2 = x2 - (c2t2) Therefore s'2= x'2 - (c2t'2) and x' = gamma * (x-Beta*ct) So x'2 =...
  3. S

    Lorentz Transformation in New Coordinates

    I know the Lorentz transformation in rectangular coordinates ct' = \gamma (ct - \beta x) x' = \gamma (x - \beta ct) y' = y z' = z I want to do this same transformation, but from cylindrical coordinates (r,\theta,z) to (r',\theta',z'). Any ideas?
  4. P

    Parallel line currents & Lorentz transformation

    Okay, I'm sure I must have overlooked something very trivial, so please help me with this: Two parallel infinite line currents of equal magnitude attract each other. The current can be thought of as consisting of positive and negative particles with equal linear densities, but each moving with...
  5. P

    Lorentz Transformation: Finding d(gamma)/dt

    How do we find d(gamma)/dt?:redface:
  6. maverick280857

    Lorentz Transformation and Creation Operators

    Hi Suppose \Lambda is a Lorentz transformation with the associated Hilbert space unitary operator denoted by U(\Lambda). We have U(\Lambda)|p\rangle = |\Lambda p\rangle and |p\rangle = \sqrt{2E_{p}}a_{p}^{\dagger}|0\rangle Equivalently, U(\Lambda)|p\rangle =...
  7. E

    Reduced density matrices and Lorentz transformation

    Hello, If I understand well, since a Lorentz transformation applied on a particle induces a Wigner rotation which depends on the momentum, the spin reduced density matrix that is naively done by tracing out the momentum has no (Lorentz) transformation law. Only the overall system can be...
  8. M

    Proving L3 is a Lorentz Transformation

    Homework Statement L1 and L2 are two lorentz trasformation. show that L3=L1 L2 is a lorentz trasformation too. Homework Equations The Attempt at a Solution
  9. K

    Infinitesimal Lorentz transformation

    I have questions about the infinitesimal Lorentz transformation. but specifically about index manipulations. \Lambda^{\mu}_{}_{\nu}=\delta^{\mu}_{\nu}+\delta\omega^{\mu}_{}_{\nu} where \delta\omega^{\mu}_{}_{\nu} << 1 as found in many textbooks, we substitute this into...
  10. Y

    Question about applying the Lorentz Transformation to velocity 4-vectors

    My question deals not with the Lorentz Tranformation itself, but the matrix representation of it: I see readily how the space-time 4-vector: x^{\mu}=\left( c \ast t, x, y, z\right) transforms approptiately so that x^{\acute{\mu}}=\Lambda_{v}^{\acute{\mu}} \ast x^{\mu}=\left( \gamma \ast...
  11. L

    Lorentz transformation without the speed of light postulate

    My https://www.physicsforums.com/showthread.php?t=297616" was a pretext to discuss the well-known fact that it is nearly possible to derive the full Lorentz transformation without taking into account the constancy of the speed of light. I went back to my physics hobby and read that in a few...
  12. B

    From the direct Lorentz transformation to the inverse one.

    from the "direct" Lorentz transformation to the "inverse" one. Consider please that we know the "direct" transformation say for the time coordinates of the same event. It is considered that we can obtain the "inverse" transfrmation by simply interchanging the corresponding unprimed physical...
  13. N

    Now it remains to be shown that A = B. I'll leave that to you.

    1. Start with the expression x'^2 + y'^2 _ z'^2 -c^2t'^2 and show, with the aid of the Lorentz transofmration, that this quantity is equal to x^2 + y^2 + z^2 -c^2t^2. This result establishes the invariance of s^2 defined by s^2 = x^2 + y^2 + z^2 -c^2t^2 2. s^2 = x^2 + y^2 + z^2 -c^2t^2...
  14. Y

    Lorentz Transformation: Solving Homework Statement

    Homework Statement Two events occur at the same place in an inertial reference fram S, but are separated in time by 3 seconds. In a different frame S', they are separated in time by 4 seconds. (a) What is the distance between the two events as measured in S'? (b) What is the speed of S...
  15. M

    How Does Lorentz Transformation Affect Electron Dynamics?

    Homework Statement An electron with rest mass m0 = 9.11E10-31 kg and charge e= 1.6E10-19 C was accelerated with an acceleration voltage U=30 kV a) What is its velocity , momentum and energy in a classical picture ? b)What is its velocity , momentum and energy in a relativistic picture ...
  16. M

    Derivation of Time Dilation and Length Contraction from Lorentz Transformation

    Hello there, a simple special relativity question, how can the Time Dilation and Length Contraction Formulas be derived from the Lorentz Transformation Equations?
  17. S

    Lorentz Transformation without length?

    The Lorentz Transformation tA = [tB+vxB/c^2]/sqrt(1-v^2/c^2) can be simplified to tA = tB (1-v)/sqrt(1-v^2), if we adopt these conventions: 1) Refer to v as a fraction of c. Thus every time we write v/c in the original formula, we write v, in the understanding that these v units...
  18. W

    Lorentz Transformation of Scalar Fields

    Homework Statement Working on an exercise from Srednicki's QFT and something is not clear. Show that [\varphi(x), M^{uv}] = \mathcal{L}^{uv} \varphi(x) where \mathcal{L}^{uv} = \frac{\hbar}{i} (x^u \partial^v - x^v \partial^u ) Homework Equations (1) U(\Lambda)^{-1} \varphi(x)...
  19. D

    Lorentz transformation in non-inertial frame

    I am doing some study about the lorentz transformation between non-inertial frames. I wonder if the tranformation is the same as in SR. I need to do the transformation of EM fields in a constantly rotational frame. Can anybody help me with this one. Is there anybook I can refer to? Many thanks.
  20. T

    Solving Lorentz Transformation Problems: Prove & Calculate Angle

    Can anybody please help me with the solutions for the following 2 probs- 1. Prove that Lorentz Transformation is rotation in 4D Minkowski's space. 2. If particle velocity is along x,y plane, calculate the angle transformation relation. Thanks in advance!
  21. B

    Lorentz transformation, Einstein transformation,Lorentz-Einstein transformation

    When it is about the "Lorentz transformations" I have in mind: There is indeed a state of real rest, defined by the ether. Hearing about "Einstein transformations" I would think: The notions of "really resting" and "really moving" are meaningless. Only relative motion of two or more uniformly...
  22. D

    The Transformation from S to S''Relative Speed Between Frames S and S

    Problem Write down the transformation from a frame S to a frame S' moving at +0.5 c in the x direction and then to another frame S'' moving at +0.5 c in the x direction relative to S'. What is the complete transformation from S to S''? What relative speed between frames S and S'' does your...
  23. A

    Analogue of Lorentz transformation in General Relativity.

    Can anybody tell me if there is anything analogous to Lorentz transformation in General Relativity (ie, in curved space)? If there is then what are the corresponding group generators and what is the corresponding algebra? I just wondered this question while reading about Lorentz group and I am...
  24. Peeter

    Question on Einstein's Simple derivation of Lorentz Transformation.

    In appendix 1 of Einstein's "Relativity, The Special and General Theory", a book intended for the general public, he gives a derivation of the Lorentz transformation. The math involved is pretty straightforward, but I wonder if anybody can clarify his reasoning for his equation 3 (below)...
  25. I

    Space Travel - Lorentz Transformation

    Space ship Alpha travels at t = 0 and v = 4/5 c to the star Sirius which is 8.6 light years away. One year later spaceship Delta starts at v = 9/10 c to the same star. Question 1: When does Delta overtake Alpha, as measured from Alpha's, Delta's and Earth's perspective? Question 2: At which...
  26. A

    How does Lorentz transformation manage to maintain the speed of light constant?

    Let's say, there are two observers A and B moving with respect to each other with relative velocity v. Now, when we say, the speed of light is same for every observer, does it mean that the speed of light measured by A and B in their own frames, as well as the other's frame will be same? That...
  27. C

    Is Lorentz transformation absolute

    An observer at the mid point between two frames A and B that are moving toward her, measures each of their speeds to be 0.75c. According to SR, the Lorentz transformation will determine the speed of A and B measured by the other to be less than 1.5c. (in fact less than c) Being aware of the...
  28. L

    Prove Lorentz Transformations: |E|>|cB| & Angle b/t E & B

    I need to show that: 1. if E is \perp to B in one Lorentz frame, it is \perp in all Lorentz frames 2. |E|>|cB| in L. frame, |E|>|cB| in all L. frame 3. Angle b/t E and B is acute/obtuse in L. frame, it is acute/obtuse in all L. frame 4. E is \perp to B but |E|\neq|cB|, then there is a frame...
  29. E

    Lorentz transformation problem

    Homework Statement A spaceship has a speed of .8c relative to Earth. In its own reference fram, the length of this spaceship is 300m. a.) consider a light emiited from the tail of this spaceship. In the reference frame of the spaceship, how long does this pulse take to reach the nose> b.) In...
  30. E

    A question concerning the lorentz transformation derivation

    I have been studying the lorentz-transformation derivation but I can't quite get a proper answer as to why you can start with the assumption that: x' = ax + bt t' = cx + dt The assumption is that "the transformations must be linear". So my first question is, what does that mean, that a, b, c...
  31. W

    Lorentz transformation lab to CM system

    Which Lorentz transformation takes the lab system to the CM system? Lab system: p_a = (E^{lab}_a, \vec{p}_a) and p_b = (m_b, \vec{0}) CM system: p_a = (E^{CM}_a, \vec{p}) and p_b = (E^{CM}_b, -\vec{p}) For a binary reaction a+b->c+d, the textbooks I have say quite a lot about the...
  32. P

    Lorentz Transformation: Conservation of Inner Product?

    Is Lorentz transformation one kind of coordinate transformation? If so, the conservation of inner product, which is the primary property of Lorentz Transformation, is trivial, isn't it? The vector transforms in some way, the metric transforms in the inverse way, so the inner product defintely...
  33. A

    Galilean vs Lorentz transformation equations

    Let S' = a stationary two-dimensional space-time coordinate system, and let the x'-axis of S' lie along the x-axis of another stationary two-dimensional space-time coordinate system S. Let S' move along the x-axis of S with a constant velocity v = 29,800m/s in the direction of increasing x...
  34. O

    Derivation of Lorentz Transformation

    On this page, and in many, many other resources both in textbooks and online, derivations of time dilation and length contraction are given which lead to; \gamma = \frac{1}{\sqrt{1-\frac{v^2}{c^2}}} t^{'}=\gamma t x^{'}=\frac{1}{\gamma}x Now a great many derivations of the Lorentz...
  35. W

    Light propagating at angle, under Lorentz transformation

    well, i have been going over this problem for about 4 hours and everytime i get closer and closer to some answer but I am never convinced i am right. THE PROBLEM: let lambda be the wavelength of light propagating in the x-y plane at an angle theta with respect to the x-axis in the (x,y,z,t)...
  36. T

    Lorentz transformation conclusion with rotation of axis

    Hi Guys, I've attached 2 pages from the book of landau "The Classical Theory of fields", I have a question about the lorentz transformations in pages 10,11 after reaching the step: tanh(psy)= V/c How did he split the latter into sinh(psy) and cosh(psy) and added the "gamma" constant...
  37. P

    Lorentz transformation active or passive?

    Is the lorentz transformation an active transformation or a passive one?
  38. O

    How to get inverse Lorentz tranformation from direct Lorentz transformation

    How to get inverse Lorentz tranformation from "direct" Lorentz transformation Hello, I am having trouble on deriving the inverse Lorentz transformation from the direct Lorentz transformation. I looked at some threads here and I found in here...
  39. K

    Derivation of Lorentz Transformation

    Hi, I don't fully understand the derivation of the Lorentz Transform. For example, in the transformation: t' = \gamma t - \gamma\frac{vx}{c^2} Where do you get the x-term from? I understand the derivation of gamma, and I see that when x = 0 (when the two frames coincide in origin)...
  40. D

    What Is the Linear Form of the Lorentz Transformation Equation?

    can anybody give me just equation of the transformation in a linear form ? without any complications just the equation of Lt. 10x
  41. C

    Lorentz Transformation Explained: What Is It?

    i am confused what a lorentz transformation really is or is it just a transformation described by the boost transformation.
  42. B

    Simple Lorentz transformation. Are there objections

    I find in some textbooks the following generalization of the Galileo transformations x=k(x'+vt') x'=k(x-vt) with the same k because if we transform from I to I' or from I' to I then the distortion factor of lengths or time intervals should be the same. Are there objections?
  43. B

    Direct and inverse Lorentz transformation

    When we state that: Knowing the direct Lorentz transformation we obtain the inverse one by changing the corresponding primed physical quantities with unpriomed ones and changing the sign of the relative velocity, we are based on what? Thanks
  44. B

    Inverse lorentz transformation question

    Homework Statement Suppose that an event occurs in inertial frame S with cooridinates x=75 m y=18 m ,z=4.0 m and t=2.0*10^-5 seconds . The inertial frame S' moves in the +x direction with v=c*.85 . The origins of S and S' coincided at t=t'=0. a)what are the coordinates of the event in S'...
  45. H

    Derivation Of Lorentz Transformation by Lawden

    I have been reading DF Lawden's nice book on tensor calculus and relativity. I keep going back to first chapter (p 9-11) as I did not 100% get his derivation of the "special" Lorentz transformation. He writes about a rotational transformation in one plane and then writes about a translational...
  46. B

    Relavistic velocity lorentz transformation problem.

    Homework Statement Two space ships are approaching each other a)if the speed of each is .9 *c relative to Earth , what is the speed of one relative to the other b)if the speed each relative to Earth is 30000m/s, what is the speed of one relative to the other Homework Equations The...
  47. P

    Lorentz Transformations in xy & xyz Directions | Pat

    So I'm looking at some Lorentz transformation equations and it says x'=\gamma(x-vt) t'=\gamma(t-vx/c^{2}) y'=y z'=z I'm assuming the values for y', y, z' and z only hold true when the inertial frames of S and S' are moving at a relative velocity in the x-direction. With this being said, what...
  48. B

    Deriving Lorentz Transformation: Is it Time-Saving & Physically Correct?

    Consider, please, that you have derived the Lorentz transformation for the space coordinates x=g(V)[x'+Vt'] (1) Taking into account that as a result of the Einstein clock synchroniation procvedure x/c=t, x'/c=t' we obtain dividing both sides of (1) by c...
  49. B

    When is a derivation of the Lorentz transformation good

    when is a derivation of the Lorentz transformation "good" There is an inflation of derivations of the Lorentz transformation from "simple", "fastest"... When is in your oppinion such a derivation good? In my oppinion it should fulfill the following conditions: 1. It should be based on the...
  50. P

    Exploring the Lorentz Transformation: SL(2,C), SO(1,3) and More

    When people discuss the Lorentz transformation, the start talking about "groups " of transformations SL(2,C), SO(1,3) etc. Looks impressive! Where can I learn this stuff too? I asked a similar question in the Linear Algebra section but it gets less traffic
Back
Top