| 31. | Performing the Lorentz transformations by block matrix multiplication,
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| 32. | The rotation also breaks the symmetry in the overall Lorentz transformation making it nonsymmetric.
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| 33. | Why do Lorentz transformations have to be linear?
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| 34. | Group extension ), the parabolic Lorentz transformations.
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| 35. | In the words of Ronald Shaw, " Bivectors are logarithms of Lorentz transformations"
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| 36. | Lorentz transformations have a number of unintuitive features that do not appear in Galilean transformations.
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| 37. | The Lorentz transformation is a linear transformation.
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| 38. | So far the Lorentz transformations have been applied to " one event ".
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| 39. | These transformations together are the Lorentz transformation:
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| 40. | In retrospect, we can see that the Lorentz transformations are equivalent to hyperbolic rotations.
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