Difference between revisions of "4-vectors"
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Since
is nothing more than a dot product of a vector with itself, we should expect the components of the indices to follow a similar relationship.
Where
Where
is the Lorentz transformation matrix for motion in the z direction.
Line 76: | Line 76: | ||
Comes from the Minkowski metric | Comes from the Minkowski metric | ||
+ | |||
+ | <center><math> | ||
+ | \begin{bmatrix} | ||
+ | dx_0 & dx_1 & dx_2 & dx_3 | ||
+ | \end{bmatrix}\cdot | ||
+ | \begin{bmatrix} | ||
+ | 1 & 0 & 0 & 0 \\ | ||
+ | 0 &-1 & 0 & 0 \\ | ||
+ | 0 & 0 & -1 & 0 \\ | ||
+ | 0 & 0 & 0 & -1 | ||
+ | \end{bmatrix}\cdot | ||
+ | \begin{bmatrix} | ||
+ | dx^0 \\ | ||
+ | dx^1 \\ | ||
+ | dx^2 \\ | ||
+ | dx^3 | ||
+ | \end{bmatrix} | ||
+ | </math></center> | ||
+ | |||
<center><math> | <center><math> | ||
Line 84: | Line 103: | ||
0 & 0 & 0 & -1 | 0 & 0 & 0 & -1 | ||
\end{bmatrix}</math></center> | \end{bmatrix}</math></center> | ||
− | |||
Using the Lorentz transformations and the index notation, | Using the Lorentz transformations and the index notation, |
Revision as of 03:22, 6 June 2017
4-vectors
Using index notation, the time and space coordinates can be combined into a single "4-vector"
, that has units of length, i.e. ct is a distance.
We can express the space time interval using the index notation
The change in signs in the covariant term,
To the contravarient term
Comes from the Minkowski metric
Using the Lorentz transformations and the index notation,
This can be expressed in matrix form as
Letting the indices run from 0 to 3, we can write