Comments on: Sending Video at Relativistic Speeds? http://www.foxfire1.com/laser-speed-camera/sending-video-at-relativistic-speeds No more tickets Sun, 29 Jan 2012 10:32:59 -0600 http://wordpress.org/?v=2.8.4 hourly 1 By: starryskyn http://www.foxfire1.com/laser-speed-camera/sending-video-at-relativistic-speeds/comment-page-1#comment-1363 starryskyn Tue, 02 Mar 2010 08:16:59 +0000 http://www.foxfire1.com/laser-speed-camera/sending-video-at-relativistic-speeds#comment-1363 There would be no red shift, as the transmitting and the receiving points are at a constant distance. The frame rate would be extended, and each pulse of the transmitter would be longer, with greater time between pulses. While some might equate a longer wavelength with the Doppler red shift, this is not the case. It is a Lorentz time dilation effect.<br><b>References : </b><br>http://en.wikipedia.org/wiki/Time_dilation There would be no red shift, as the transmitting and the receiving points are at a constant distance.
The frame rate would be extended, and each pulse of the transmitter would be longer, with greater time between pulses. While some might equate a longer wavelength with the Doppler red shift, this is not the case. It is a Lorentz time dilation effect.
References :
http://en.wikipedia.org/wiki/Time_dilation

]]> By: Bradley http://www.foxfire1.com/laser-speed-camera/sending-video-at-relativistic-speeds/comment-page-1#comment-1362 Bradley Tue, 02 Mar 2010 07:38:59 +0000 http://www.foxfire1.com/laser-speed-camera/sending-video-at-relativistic-speeds#comment-1362 The video signal would be severely red shifted as it traveled from the ship. On the receiving end, it would take an extremely long time to receive the entire video footage; it would not be viewable in real-time. The best one could do would be to watch the video frame-by-frame as the data was received. Once the entire video had been received, the red shift could be corrected for and it would be able to be played and would not appear in slow motion.<br><b>References : </b><br> The video signal would be severely red shifted as it traveled from the ship. On the receiving end, it would take an extremely long time to receive the entire video footage; it would not be viewable in real-time.

The best one could do would be to watch the video frame-by-frame as the data was received. Once the entire video had been received, the red shift could be corrected for and it would be able to be played and would not appear in slow motion.
References :

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