Open AccessThe Uniformly Accelerated String and the Bell Spaceship Paradox
Author(s) -
Miroslav Pardy
Publication year - 2021
Publication title -
intellectual archive
Language(s) - English
Resource type - Journals
ISSN - 1929-4700
DOI - 10.32370/ia_2021_06_1
Subject(s) - physics , length contraction , lorentz transformation , string (physics) , classical mechanics , contraction (grammar) , theoretical physics , quantum mechanics , quantum electrodynamics , philosophy , linguistics
We consider the string with the length l, the left end and the right end of which is non-relativistically and then relativistically accelerated by the constant acceleration a. We calculate the motion of the string with no intercalation of the Fitzgerald contraction of the string. We consider also the Bell spaceship paradox. The Bell paradox and our problem is in the relation with the Lorentz contraction in the Cherenkov effect (Pardy, 1997) realized by the carbon dumbbell moving in the LHC or ILC (Pardy, 2008). The Lorentz contraction and Langevin twin paradox (Pardy, 1969) is interpreted as the Fock measurement procedure (Fock, 1964;).