[Home]Special relativity/Unfinished notes

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In pre-Einstein relativity (known as [Galilean relativity]?), time is considered an absolute in all reference frames.

From this assumption, the following consequences can be derived about the perspective of an event in two reference frames, S and S', where S' is traveling at a relative speed of u to S.

* v' = v - u (the velocity of a particle from the perspective of S' is slower by u than from the perspective of S)
* a' = a (the acceleration of a particle remains the same regardless of reference frame)
* F' = F (since F = ma) (the force on a particle remains the same regardless of reference frame; see [Newton's law]?)
* the speed of light is not a constant
* the form of Maxwell's equations is not preserved in different reference frames

Details



Consider two reference frames, one of which is traveling at a relative speed of u to the other. For example, for a car passing another car at a relative speed of 10 mph, u is 10 mph.

Two reference frames S and S', with S' traveling at a relative speed of u to S; an event has space-time coordinates of (x,y,z,t) in S and (x',y',z',t') in S'.

The space-time coordinates of an event in [Galilean-Newtonian relativity]? are governed by the set of formulas which defines a [group transformation]? known as the [Galilean transformation]?:

Assuming time is considered an absolute in all reference frames, the relationship between space-time coordinates in reference frames differing by a relative speed of u in the x direction (let x = ut when x' = 0) is:

:x' = x - ut
:y' = y
:z' = z
:t' = t

The set of formulas defines a [group transformation]? known as the [Galilean transformation]? (informally, the Galilean transform).

Velocity



In pre-Einstein relativity velocities are directly additive and subtractive. For example, if one car traveling at 60 mph passes another car traveling at 50 mph, from the perspective of the car it passes it is traveling at 60-50 = 10 mph.

Mathematically, if we define the velocity of the second reference frame in our previous discussion above as the vector u = ux (x being the x-dimensional unit vector), following the above formulas gives us:

:v' = v - u

as we would expect.

Changed: 49c15,16
* [relativistic energy]?
* [relativistic energy]? and inertia
* relativity of simultaneity

Newtonian physics

[Einsteinian physics]?

The two principles of relativity, as set down in Einstein's 1905 paper, are

From these assumptions, the following consequences can be derived about the perspective of an event in two reference frames, S and S', where S' is traveling at a relative speed of u to S.

Consequences:

Lorentz transformation, Lorentz invariance


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Last edited December 20, 2001 11:25 pm by 212.153.190.xxx (diff)
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