Parallel Circuit Diagram

Questions about the Length Contraction in the following case?
Consider two space ships A and B of same length instead of train in the following link http://www.youtube.com/watch?v=wteiu...eature=related Both A and B started their same computerized journey from stationary observer station ?Os? but moving in opposite direction to each other in a closed loop. All clocks as shown below, used by respective observers are synchronized at Os station before their journey into space. After certain time A and B crosses each other at the crossing facility in a loop such that one is exactly above the other (front of upper ship is exactly above the rear of lower and rear of upper is exactly above the front of lower). Here is the detail of crossing facility (For simplicity imagine a parallel circuit diagram for crossing) ?A? leaves the normal loop and move up grade, straight, down grade and then enter the normal loop from where ?B? left ?B? leaves the normal loop from opposite direction but moves down grade, straight, upgrade and then enters the normal loop from where ?A? left. End------------------------ship A---------------------------Front LSae, Mae, e, Cae, Oae ____________f,Caf, Oaf, LSaf,Maf Mbf, LSbf, f, Cbf, Obf,___________,Cbe, Obe,Mbe, LSbe Front--------------------------ship B------------------------------End Where e = end of ship, f = front of ship, Af = A front, Bf = B front, Ae = A end, Be = B end Oae = Observer of A at its e, Oaf = Observer of A at its f, Obe = Observer of B at its e, Obf = Observer of B at its f. LSae = Light Source at the bottom of A at its e (emit downward vertical flash), LSaf = Light Source at the bottom of A at its f (emit downward vertical flash), LSbe = Light Source at the top of B at its e (emit upward vertical flash), LSbf = Light Source at the top of B at its f (emit upward vertical flash). Mae = Mirror at the bottom of A at its e which detect flash of LSbf during line up of Bf/Ae, Maf = Mirror at the bottom of A at its f which detect flash of LSbe during line up of Af/Be, Mbe = Mirror at the top of B at its e which detect flash of LSaf during line up of Af/Bf, Mbf = Mirror at the top of B at its f which detect flash of LSae during line up of Bf/Ae. Cae = Clock of A used by Oae during line up of Ae/Bf, Caf = Clock of A used by Oaf during line up of Af/Be, Cbe = Clock of B used by Obe during line up of Be/Af, Cbf = Clock of B used by Obf during line up of Bf/Ae. For Os, in elevation or top view LSae is well above Mbf and Mae is well above LSbf, LSaf is well above Mbe and Maf is well above LSbe. As for Os both A and B are equally longer therefore he would see both new flashes from the f and e of both ships at the same time. And also at the same time Downward vertical flash of LSae is detected by Mbf and upward vertical flash of LSbf by Mae, Downward vertical flash of LSaf is detected by Mbe and upward vertical flash of LSbe by Maf. Now consider the event from A frame of reference For Oaf, the front light strikes the Af/Be followed by Ae/Bf. This means Mbe is struck by downward vertical flash of LSaf and that Maf by upward vertical flash of LSbe Caf is paused by Oaf when Af even with Be but since Oae is still waiting for Bf to be even with Ae, therefore Cae is not yet paused by Oae, and Downward vertical flash of LSae hasn?t yet touched B and or Mbf while Upward vertical flash of LSbf has touched A but not yet reach Mae and thus Oae is still waiting for the event to be occurred at Ae Obf and Obe have an exactly symmetrical experience but sees flash Bf/Ae first followed by Be/Af Here is the detail of event as seen from B frame of reference For Obf, the front light strike the Bf/Ae followed by Be/Af. This means Mae is struck by upward vertical flash of LSbf and Mbf by downward vertical flash of LSae Cbf is paused by Obf when Bf even with Af but since Obe is still waiting for Be to be even with Af, therefore Cbe is not yet paused by Obe and Upward vertical flash of LSbe hasn?t yet touched A and or Maf while Downward vertical flash of LSaf has touched B but not yet Mbe and thus Obe is still waiting for the event to occurred at Be PLEASE SEE ADDITIONAL DETAIL Later on both Oaf and Obf come back from their mission to Os station and starts claim for observing first front strike. Both are right in their perspective frame of reference but still there is disagreement between two. Oaf claim that he has paused his Caf before Obf while Obf also claim that he has paused his Cbf before Obf Now Os advises Oaf and Obf to compare their Caf and Cbf reading. Since Oaf is the witness for the Af even with Be (For the front strike of Af and rear strike of Be). Obf is the witness for the Bf even with Ae (For the front strike of Bf and rear strike of Ae). So both Caf and Cbf should show same reading because they went through the same computerized journey and thus there should no length contraction. Here is the answer about those clocks from one of reputable physics forum. It's true that when lightning struck next to Af, A's clock at that location read -5, and when lightning struck next to Bf, B's clock there read -5, but since these are clocks from two dif different observers this does not mean the strikes were simultaneous in either frame--this is your crucial mistake, each observer only defines simultaneity using multiple clocks of his own at different locations?. So here are my questions. If each front observer deny the lining up of the front of the other ship with the end of his ship then how comes abovementioned mirrors detects all those vertical flashes from their respective opposite light sources? OR Event from A frame of reference If Oae is still waiting for Bf to be even with Ae, then how come Mae was struck by upward vertical flash of LSbf and Mbf by downward vertical flash of LSae from B frame of reference? Event from B frame of reference If Obe is still waiting for Af to be even with Be then how come Mbe was struck by downward vertical flash of LSaf and Maf by upward vertical flash of LSbe from A frame of reference?

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