5.5 The lorentz transformation (Page 7/12)

University physics volume 3 Page 7 / 12

Lorentz transformations in space-time

We have already noted how the Lorentz transformation leaves

Δ s^{2} = {(Δ x)}^{2} + {(Δ y)}^{2} + {(Δ z)}^{2} - {(c Δ t)}^{2}

unchanged and corresponds to a rotation of axes in the four-dimensional space-time. If the S and $S'$ frames are in relative motion along their shared x -direction the space and time axes of $S'$ are rotated by an angle $α$ as seen from S, in the way shown in shown in [link] , where:

tan α = \frac{v}{c} = β .

This differs from a rotation in the usual three-dimension sense, insofar as the two space-time axes rotate toward each other symmetrically in a scissors-like way, as shown. The rotation of the time and space axes are both through the same angle. The mesh of dashed lines parallel to the two axes show how coordinates of an event would be read along the primed axes. This would be done by following a line parallel to the $x'$ and one parallel to the $t'$ -axis, as shown by the dashed lines. The length scale of both axes are changed by:

c t' = c t \sqrt{\frac{1 + β^{2}}{1 - β^{2}}}; x' = x \sqrt{\frac{1 + β^{2}}{1 - β^{2}}} .

The line labeled $“ v = c ”$ at $45 °$ to the x -axis corresponds to the edge of the light cone, and is unaffected by the Lorentz transformation, in accordance with the second postulate of relativity. The $“ v = c ”$ line, and the light cone it represents, are the same for both the S and $S'$ frame of reference.

The space time diagram has axes x and c t. The v=c line is a line at 45 degrees. A second set of axes, x prime and c t prime, are also shown. These axes share the same origin as the x c t axes. The x prime axis is an angle alpha = inverse tangent (v/c) above the x axis. The c t prime axis is the same angle alpha to the right of the c t axis. A set of dashed lines parallel to the x prime and c t prime axes are also shown. — The Lorentz transformation results in new space and time axes rotated in a scissors-like way with respect to the original axes.

Simultaneity

Simultaneity of events at separated locations depends on the frame of reference used to describe them, as given by the scissors-like “rotation” to new time and space coordinates as described. If two events have the same t values in the unprimed frame of reference, they need not have the same values measured along the $c t' -axis,$ and would then not be simultaneous in the primed frame.

As a specific example, consider the near-light-speed train in which flash lamps at the two ends of the car have flashed simultaneously in the frame of reference of an observer on the ground. The space-time graph is shown [link] . The flashes of the two lamps are represented by the dots labeled “Left flash lamp” and “Right flash lamp” that lie on the light cone in the past. The world line of both pulses travel along the edge of the light cone to arrive at the observer on the ground simultaneously. Their arrival is the event at the origin. They therefore had to be emitted simultaneously in the unprimed frame, as represented by the point labeled as t (both). But time is measured along the $c t' -axis$ in the frame of reference of the observer seated in the middle of the train car. So in her frame of reference, the emission event of the bulbs labeled as $t'$ (left) and $t'$ (right) were not simultaneous.

The ground observer and the train, moving to the right at velocity v and with flash lamps at either end and a passenger in the center, are shown below a space time graph of the example. The horizontal and vertical axes of the space time diagram are the x and c t axes. The passenger is at x=0. The flashes are equidistant to the left and right of x=0 and are shown at the same time, t<0. Light lines from each flash pass through the origin at 45 degrees and are labeled as v=c. The event t (both) is labeled where the horizontal line connecting the left and right flash events crosses the c t axis. The x prime axis is between the + 45 degree light line and the x axis. The c t prime axis is between the +45 degree light line and the vertical c t axis. A dashed line that is parallel to the x prime axis and passes through the left flash event is shown. The point where it crosses the c t prime axis is labeled as t prime (left). Another dashed line that is parallel to the x prime axis and passes through the right flash event is shown. The point where this second dashed line crosses the c t prime axis is labeled as t prime (right). The t prime (right) point is lower on the c t prime axis than the t prime (left) point. — The train example revisited. The flashes occur at the same time t (both) along the time axis of the ground observer, but at different times, along the $t'$ time axis of the passenger.

In terms of the space-time diagram, the two observers are merely using different time axes for the same events because they are in different inertial frames, and the conclusions of both observers are equally valid. As the analysis in terms of the space-time diagrams further suggests, the property of how simultaneity of events depends on the frame of reference results from the properties of space and time itself, rather than from anything specifically about electromagnetism.

Questions & Answers

what is force

Afework Reply

The different examples for collision

Afework

What is polarization and there are type

Muhammed Reply

Polarization is the process of transforming unpolarized light into polarized light. types of polarization 1. linear polarization. 2. circular polarization. 3. elliptical polarization.

Eze

Describe what you would see when looking at a body whose temperature is increased from 1000 K to 1,000,000 K

Aishwarya Reply

how is tan ninety minus an angle equals to cot an angle?

Niicommey Reply

please I don't understand all about this things going on here

Jeremiah Reply

What is torque?

Matthew Reply

In physics and mechanics, torque is the rotational equivalent of linear force. It is also referred to as the moment, moment of force, rotational force or turning effect, depending on the field of study.

Teka

Torque refers to the rotational force. i.e Torque = Force × radius.

Arun

Torque is the rotational equivalent of force . Specifically, it is a force exerted at a distance from an object's axis of rotation. In the same way that a force applied to an object will cause it to move linearly, a torque applied to an object will cause it to rotate around a pivot point.

Teka

Torque is the rotational equivalence of force . So, a net torque will cause an object to rotate with an angular acceleration. Because all rotational motions have an axis of rotation, a torque must be defined about a rotational axis. A torque is a force applied to a point on an object about the axis

Teka

When a missle is shot from one spaceship towards another, it leaves the first at 0.950c and approaches the other at 0.750c. what is the relative velocity of the two shipd

Marifel Reply

how to convert:m^3/s^2 all divided by kg to cm^3/s^2

Thibaza Reply

Is there any proof of existence of luminiferious aether ?

Zero Reply

mass conversion of 58.73kg =mg

Proactive Reply

is Space time fabric real

Godawari Reply

What's the relationship between the work function and the cut off frequency in the diagram above?

frankline Reply

due to the upthrust weight of the object varise with force in which the body fall into the water pendincular with the reflection of light with it

Gift

n=I/r

Gift

can someone explain what is going on here

falanga

so some pretty easy physics questions bring em

falanga

what is meant by fluctuated

Olasukanmi Reply

If n=cv then how v=cn? and if n=c/v then how v=cn?

Natanim

convert feet to metre

Mbah Reply

what is electrolysis

Mbah

Electrolysis is the chemical decomposition of electrolyte either in molten state or solution to conduct electricity

Ayomide

class ninekasindhtextbookurdusave

Ayesha Reply

can someone help explain why v2/c2 is =1/2 Using The Lorentz Transformation For Time Spacecraft S′ is on its way to Alpha Centauri when Spacecraft S passes it at relative speed c /2. The captain of S′ sends a radio signal that lasts 1.2 s according to that ship’s clock. Use the Lorentz transformati

Jennifer

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Source: OpenStax, University physics volume 3. OpenStax CNX. Nov 04, 2016 Download for free at http://cnx.org/content/col12067/1.4

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