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If the space clock watches a movie that is being played frame by frame at the cinema below where 2 of his space hours are required for the movie to complete, then because the light from the movie screen is being generated at a rate of time twice as long as his own, will he observe that there are gaps between each frame?If the cinema guy watched the movie being played at the space clock's location, would the cinama guy observe every other frame to be missing?
Quote from: timey on 15/03/2017 20:24:54If the space clock watches a movie that is being played frame by frame at the cinema below where 2 of his space hours are required for the movie to complete, then because the light from the movie screen is being generated at a rate of time twice as long as his own, will he observe that there are gaps between each frame?If the cinema guy watched the movie being played at the space clock's location, would the cinama guy observe every other frame to be missing?There is no reason why there should be gaps or frames missing. Depending on which way round the playing/viewing is taking place - and yes it's easy to get mixed up - then one will see the film in slow motion the other as speeded up. Of course you will likely have some optical effect e.g. Blurring if the viewing were too fast, or the ability to see individual frames if seen too slow.
Momentum is nothing more or less than the product of mass times velocity.
But it is possible to state a percentage of the time passing elsewhere as being proportionally unobservable from a differing rate of time.
If we view time as being a filter,
Add temperature energy to the black body and the black body will start emitting photons. The more temperature that is added, the higher the frequency of the photons.
This concept also describes why hot water freezes faster than cold water,
and why wavelength=h/p.[
When reading my many physics books, when physicists talk about what quantum would look like on a macro scale, they describe ice cubes being inside one's glass in one instant of time, and then outside of the glass in the next instant, with no information being available about the transition.Or of being able to view a person who was on the other side of a wall appear on this side of the wall with no information being available about the transition.Or that it can be know that a person can be walking at a certain speed in a direction, but wether they are on this side of the wall or the other remains a mystery.Quantum then relies on perturbation to predict the transitional information. ... And perturbation is a time based method...Add 'a' time based method before the fact and both position and velocity will be calculable simultaneously.
Ok - I will give several analogies, but again this thread might want to get moved to New Theories. I am straying from the beaten track here somewhat...
Time is what separates sequential events.
Ok - I will give several analogies, but again this thread might want to get moved to New Theories. I am straying from the beaten track here somewhat...Stain glass:Light is filtered through a stain glass and what we see is the light missing information.If we view time as being a filter, then that filter value is established by the difference in rate of time between observer and observation, and the information received by observer of the observation is filtered to that value. The information received is proportional to the time difference.
Otherwise, if you have a time that is running much faster in one location than another, past, present, and future become unaligned between locations.
"So what?"
Well the differences between having a universally common now and not having one are quite considerable.