From dba922cd0c8f5ce7252f33268189259706fc9e75 Mon Sep 17 00:00:00 2001
From: bnewbold <bnewbold@ziggy.(none)>
Date: Sun, 24 Jan 2010 05:23:28 -0500
Subject: partial fixes

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 physics/special relativity.page | 62 -----------------------------------------
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 delete mode 100644 physics/special relativity.page

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----
-format: rst
-categories: physics
-toc: no
-...
-
-===========================
-Special Relativity
-===========================
-
-.. warning:: This is a rough work in progress!! Likely to be factual errors, 
-    poor grammar, etc.
-
-.. note:: Most of this content is based on a 2002 Caltech course taught by
-    Kip Thorn [PH237]_
-
-*See also `physics/general relativity</physics/generalrelativity/>`__*
-
-As opposed to general relativity, special relativity takes place in a *flat*
-Minkowski space time: a 4-space with three spatial dimensions and one time
-dimension.
-
-+----------------+--------------------+
-| Index notation | Variable | Type    |
-+----------------+--------------------+
-| `$x^0$`:m:     | `$t$`:m: | Time    |
-| `$x^1$`:m:     | `$x$`:m: | Spatial |
-| `$x^2$`:m:     | `$y$`:m: | Spatial |
-| `$x^3$`:m:     | `$z$`:m: | Spatial |
-+----------------+--------------------+
-
-Separations
--------------
-
-The separation `$(\Delta s)^2$`:m: between two events in space time, in a given
-Lorentzian/inertial frame, is defined
-as:
-
-:m:`$$ (\Delta s)^2 \equiv -(\Delta t)^2 + (\Delta x)^2 + (\Delta y)^2 + (\Delta z)^2 $$`
-
-or
-
-:m:`$$ (\Delta s)^2 \equiv -(\Delta x^0)^2 + \sum_{i,j} \delta_{ij} \Delta x^i \Delta x^j$$`
-
-where :m:`$\delta_{ij}$` is the Kronecker delta (unity or 1 when 
-:m:`$i=j$`; zero otherwise), and the indices i and j are over the spatial
-dimensions 1,2,3 (corresponding to x,y,z). It can be shown that this separation
-is Lorentz-invariant; the scalar value of separation between two events does
-not depend on the inertial frame chosen.
-
-Note the negative sign in front of the time dimension. The are three types of
-separations: **space-like** when :m:`$(\Delta s)^2 > 0$`, **null-** or 
-**light-like** when :m:`$(\Delta s)^2 = 0$`, and **time-like** when 
-:m:`$(\Delta s)^2 < 0$`. When dealing with time-like separations, ignore the
-implication of an imaginary number. The difference in time :m:`$\Delta \Tau$` 
-is always real: :m:`($\Delta \Tau)^2= -(\Delta s)^2$`.
-
-
-References
-----------------
-
-.. [PH237] `Gravitational Waves`:title: (aka ph237), a course taught by Kip Thorne at Caltech in 2002. See http://elmer.tapir.caltech.edu/ph237/ for notes and lecture videos.
-- 
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