Simultaneity of Relativity
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From: PD on 14 Oct 2009 10:56 On Oct 14, 8:33 am, mpc755 <mpc...(a)gmail.com> wrote: > On Oct 13, 8:08 pm, mpc755 <mpc...(a)gmail.com> wrote: > > > > > On Oct 13, 7:58 pm, PD <thedraperfam...(a)gmail.com> wrote: > > > > On Oct 13, 6:45 pm, mpc755 <mpc...(a)gmail.com> wrote: > > > > > On Oct 13, 7:36 pm, PD <thedraperfam...(a)gmail.com> wrote: > > > > > > On Oct 13, 6:26 pm, mpc755 <mpc...(a)gmail.com> wrote: > > > > > > > On Oct 13, 7:10 pm, PD <thedraperfam...(a)gmail.com> wrote: > > > > > > > > On Oct 13, 6:00 pm, mpc755 <mpc...(a)gmail.com> wrote: > > > > > > > > > On Oct 13, 6:52 pm, PD <thedraperfam...(a)gmail.com> wrote: > > > > > > > > > > > Neither one. Did you want me to explain the Einstein gedanken to you? > > > > > > > > > > > Just have to ask. > > > > > > > > > > > How is it the Observers who adhere to Relativity of Simultaneity > > > > > > > > > > cannot determine the lightning strikes in my thought experiment were > > > > > > > > > > simultaneous but in Simultaneity of Relativity they can? > > > > > > > > > > Observers in nature CAN determine if lightning strikes are > > > > > > > > > simultaneous. It's just that this determination is frame-dependent. > > > > > > > > > No, it is not frame-dependent. > > > > > > > > Yes, it is, experimentally so. Trying to tell nature that it really > > > > > > > isn't what it is, is a futile exercise. It is called denial of reality > > > > > > > and some people go so far as to call it psychosis. > > > > > > > > Just like it is *experimentally determined* that some physical > > > > > > > properties are frame-dependent -- such as velocity, momentum, kinetic > > > > > > > energy, electric field, magnetic field -- it is also *experimentally > > > > > > > verified* that simultaneity is frame-dependent. Two events that are > > > > > > > *experimentally* simultaneous in one frame are *experimentally* not > > > > > > > simultaneous in another frame. > > > > > > > Yes, velocity of objects is frame dependent, except for photons.. It's > > > > > > not like throwing a softball on a train where you can be on the > > > > > > embankment and see the softball's origination point on the train and > > > > > > add the softballs velocity to the trains velocity and when you catch > > > > > > the softball on the embankment it is traveling at the sum of the > > > > > > velocities. > > > > > > And actually for softballs, it is not traveling at the sum of the > > > > > velocities, either, though the sum is a pretty good approximation.. > > > > > > > Photons do not work that way. You do not 'see' the photon's > > > > > > origination point on the train in three dimensional space relative to > > > > > > where you are on the embankment. You 'see' the photon when it hits > > > > > > your eye and then it has traveled from where the source *is* to where > > > > > > you are on the embankment when the photon hits your eye and the photon > > > > > > has propagated as a wave at 'c' from the source to your eye. > > > > > > Photons travel from the event where they were generated to the place > > > > > where they are received. They do not travel from the location where > > > > > the source eventually is when the photon is received. The source may > > > > > have been destroyed by that time, or it may have turned around and > > > > > gone the other direction by that time. The photon has no idea where > > > > > the source is going to end up by the time the photon is eventually > > > > > absorbed. > > > > > If the source is traveling with constant momentum, the photon > > > > propagates away from the source at 'c'. If the source is destroyed, > > > > the photon wave still propagates away form the path the source was > > > > traveling with momentum at 'c' unless it is affected by a change > > > > relative to the aether. > > > > You realize that waves in water don't even do that. Waves do not come > > > from where the boat *is* when the waves land at the shore. > > > Yes, that is why I continually state 'relative to the aether'. If you > > drop a pebble into the middle of a round pool on a train, the wave the > > pebble creates will reach all of the sides of the pool simultaneously. > > If an Observer on the train has his feet in the water and an Observer > > on the embankment puts his feet into the water right before the wave > > hits the side of the pool, the wave will hit the feet of the Observer > > on the train and hit the feet of the Observer on the embankment and > > the wave will have traveled from the middle of the pool to where the > > feet *are* when the wave reaches the Observers feet. The wave travels > > the same distance to both Observers even though both Observers are in > > different frames of reference. Its the same wave. > > The wave generated by the pebble travels from where the middle of the > pool *is* to where the Observers feet *are* when the wave reaches the > Observers feet regardless of the frame of reference of the Observer. Don't be a COMPLETE idiot today, OK? If a boat is the source of the waves, the wave does not travel from where the boat IS to where the observer's feet at the shore are. The wave travels from where the boat WAS when it generated that wavefront. > > > If the source is stationary relative to the aether, then my > > description is correct. > > > > This is experimentally confirmed. > > > > It is also experimentally confirmed that photons travel in lines from > > > where they were generated, not from where the source goes. > > > > Your claim otherwise is simply counter to experimental measurement. > > > > > If the source changes direction then the source is no longer traveling > > > > with constant momentum, but the photon wave will still propagate away > > > > at 'c' from the path the source would have continued on if it had done > > > > so with constant momentum. > > > > > The source is traveling with constant momentum. There are four > > > > observers at 12, 3, 6, and 9 o'clock one light year away form the > > > > source. The four observers are traveling with the same constant > > > > momentum as the source. A flash occurs at the source. One light year > > > > later, all four observers see the flash simultaneously. This is what I > > > > mean by where the source *is*. If the source continued traveling with > > > > constant momentum, the path the light wave would have traveled to each > > > > observer is from where the source *is* to where each of the observers > > > > *is* when the light reaches the observers. If the source no longer > > > > existed after the flash, the light wave still propagates outward from > > > > the path the source would have continued traveling at 'c'. If the > > > > source changes direction, the light wave associated with the flash > > > > still propagates outward at 'c' from the path the source was traveling > > > > with constant momentum. > > > > > > This is *also* experimentally confirmed. > > > > The idea of experimental confirmation seems to make no dent in you. > > > > > > > I know you will never understand this concept and I know you do not > > > > > > care to understand this concept because it is different than you were > > > > > > taught. > > > > > > I was taught how to find out about the experimental tests that have > > > > > been done for various ideas. And I was taught how to conduct a fair > > > > > number of these tests myself. It's awfully hard to argue with what's > > > > > going on when you're staring at it with your own eyes. > > > > > > > There is no difference in the distance the photon travels if it winds > > > > > > up hitting an observer on the train in the eye, or the observer on the > > > > > > embankment leans into the train and pushes the observer on the train > > > > > > out of the way and has the photon hit the observer on the embankment > > > > > > in the eye. The photon simply travels from where the source *is* to > > > > > > where the destination *is* when the photon reaches its destination. > > > > > > > > Denial of experimental observations is a bad idea in science. > > > > > > > > > That is what is incorrect with > > > > > > > > Relativity of Simultaneity. The Observers at M and M' in my thought > > > > > > > > experiment, using Relativity of Simultaneity incorrectly conclude all > > > > > > > > four flashes were not simultaneous because the Observer at M > > > > > > > > arbitrarily and incorrectly concludes the light from the lightning > > > > > > > > strike at A' traveled from where A' *was*. This is incorrect. Just > > > > > > > > like the Observer at M' determines the light traveled from where A' > > > > > > > > *is* when the light reaches M', the Observer at M, in Simultaneity of > > > > > > > > Relativity, determines the light traveled from where A' *is* to where > > > > > > > > M *is*, does the same for the distance the light travels from A, B, > > > > > > > > and B' and correctly concludes all four lightning strikes occurred > > > > > > > > simultaneously. > > > > > > > > > > It's similar to being at rest. It's easy to determine if something is > > > > > > > > > at rest. However, that determination is frame-dependent, because in > > > > > > > > > another reference frame the same object is not at rest. This is > > > > > > > > > something that Galileo understood well over 300 years ago, and school > > > > > > > > > children ever since have too. > > > > > > > > Do you see this? > > > > > > > > > > > Why does the light travel from where A' *is* to where M' *is* but the > > > > > > > > > > light travels from where A' *was* to where M *is*? > > > > > > > > > > It doesn't. > > > > > > > > > > You haven't asked me to explain the Einstein gedanken yet.. > > > > > > > > And you still haven't. Are you interested in having it explained to > > > > > > > you? Why is it emotionally difficult for you to ask for this? You seem > > > > > > > to have emotional difficulties about a number of things. > > > > > > > Because I understand Relativity of Simultaneity. > > > > > > Apparently not. You've made a number of errors so far in trying to > > > > > describe it. > > > > > > Do you know the definition of simultaneity for two spatially separated > > > > > events? > > > > I gather the answer is no. > >
From: glird on 14 Oct 2009 14:56 On Oct 13, 7:33 pm, mpc755 wrote: > The clocks at M and M' run at the same >rate. There is no length contraction. That is classical physics, which is different that relativistic physics. > The aether is stationary in the train >frame of reference and in the embankment >frame of reference. That is futuristic physics, which is different and immensely better than classical and relativistic and any present physics. > When the light wave from the flash at A' >reaches M the flash from the light wave at >B reaches M'. > When the light from the flashes at A and >B reach M the light from the flashes at A' >and B' reach M'. When the light from the >flash at B' reaches M, the light from the >flash at A reaches M'. In terms of the classical physics beneath your assertions, that is incorrect. in terms of relativistic physics, it isn't applicable at all. in terms of futuristic physics, clocks AUTOMATICALLY esynch, so you are incorrect here too. glird
From: mpc755 on 14 Oct 2009 18:58 On Oct 14, 2:56 pm, glird <gl...(a)aol.com> wrote: > On Oct 13, 7:33 pm, mpc755 wrote: > > > The clocks at M and M' run at the same >rate. There is no length contraction. > > That is classical physics, which is different that relativistic > physics. > > > The aether is stationary in the train >frame of reference and in the embankment >frame of reference. > > That is futuristic physics, which is different and immensely better > than classical and relativistic and any present physics. > > > When the light wave from the flash at A' >reaches M the flash from the light wave at >B reaches M'. > > When the light from the flashes at A and >B reach M the light from the flashes at A' >and B' reach M'. When the light from the > >flash at B' reaches M, the light from the >flash at A reaches M'. > > In terms of the classical physics beneath your assertions, that is > incorrect. in terms of relativistic physics, it isn't applicable at > all. in terms of futuristic physics, clocks AUTOMATICALLY esynch, so > you are incorrect here too. > > glird If the aether is stationary relative to the train in the train frame of reference, and the aether is stationary relative to the embankment in the embankment frame of reference. The train is stationary and the embankment is stationary. There Observer at M and M' stand as close together as possible and synchronize their clocks. The train is moved in one direction and the embankment is moved in the other direction with the same exact acceleration and then the same exact speed. The train is sent towards the embankment and the embankment is sent towards the train and accelerate exactly the same towards each other and maintain the same exact speed when moving with constant momentum. Everything that has occurred and is occurring to the Observer at M on the embankment and the Observer at M' on the train is exactly the same (or more accurately in terms of direction, exactly the opposite). There is an observer on the membrane equi-distant between A and A' who hits a button which allows flashes to occur at A and A' when a line can be drawn perpendicular to the membrane through A, through the Observer between A and A', and through A'. The light from A and A' reaches the Observer on the membrane equi-distant between A and A' simultaneously. The same occurs at B and B' and the Observer on the membrane between B and B'. The light from A' reaches the Observer at M. The light from B reaches the Observer at M'. When the Observer at M and the Observer at M' check their clocks when they see the flashes, their clocks say the same time. The light from A and B reaches M simultaneously. The light from A' and B' reaches M' simultaneously. When the Observer at M and the Observer at M' check their clocks when they see the flashes, their clocks say the same time. The light from B' reaches the Observer at M. The light from A reaches the Observer at M'. When the Observer at M and the Observer at M' check their clocks when they see the flashes, their clocks say the same time.
From: mpc755 on 14 Oct 2009 19:30 On Oct 14, 6:58 pm, mpc755 <mpc...(a)gmail.com> wrote: > On Oct 14, 2:56 pm, glird <gl...(a)aol.com> wrote: > > > > > On Oct 13, 7:33 pm, mpc755 wrote: > > > > The clocks at M and M' run at the same >rate. There is no length contraction. > > > That is classical physics, which is different that relativistic > > physics. > > > > The aether is stationary in the train >frame of reference and in the embankment >frame of reference. > > > That is futuristic physics, which is different and immensely better > > than classical and relativistic and any present physics. > > > > When the light wave from the flash at A' >reaches M the flash from the light wave at >B reaches M'. > > > When the light from the flashes at A and >B reach M the light from the flashes at A' >and B' reach M'. When the light from the > > >flash at B' reaches M, the light from the >flash at A reaches M'. > > > In terms of the classical physics beneath your assertions, that is > > incorrect. in terms of relativistic physics, it isn't applicable at > > all. in terms of futuristic physics, clocks AUTOMATICALLY esynch, so > > you are incorrect here too. > > > glird > > If the aether is stationary relative to the train in the train frame > of reference, and the aether is stationary relative to the embankment > in the embankment frame of reference. The train is stationary and the > embankment is stationary. There Observer at M and M' stand as close > together as possible and synchronize their clocks. The train is moved > in one direction and the embankment is moved in the other direction > with the same exact acceleration and then the same exact speed. The > train is sent towards the embankment and the embankment is sent > towards the train and accelerate exactly the same towards each other > and maintain the same exact speed when moving with constant momentum. > > Everything that has occurred and is occurring to the Observer at M on > the embankment and the Observer at M' on the train is exactly the same > (or more accurately in terms of direction, exactly the opposite). > > There is an observer on the membrane equi-distant between A and A' who > hits a button which allows flashes to occur at A and A' when a line > can be drawn perpendicular to the membrane through A, through the > Observer between A and A', and through A'. The light from A and A' > reaches the Observer on the membrane equi-distant between A and A' > simultaneously. The same occurs at B and B' and the Observer on the > membrane between B and B'. > > The light from A' reaches the Observer at M. > The light from B reaches the Observer at M'. > When the Observer at M and the Observer at M' check their clocks when > they see the flashes, their clocks say the same time. > > The light from A and B reaches M simultaneously. > The light from A' and B' reaches M' simultaneously. > When the Observer at M and the Observer at M' check their clocks when > they see the flashes, their clocks say the same time. > > The light from B' reaches the Observer at M. > The light from A reaches the Observer at M'. > When the Observer at M and the Observer at M' check their clocks when > they see the flashes, their clocks say the same time. When the Observers saw each flash they determined how far away the source was the instant they saw the flash. The Observers factored in the aether was stationary relative to the other frame of reference and factored in the speed of light through the membrane. Both Observers determine the four flashes occurred at the same time.
From: mpc755 on 15 Oct 2009 11:50
On Oct 14, 7:30 pm, mpc755 <mpc...(a)gmail.com> wrote: > On Oct 14, 6:58 pm, mpc755 <mpc...(a)gmail.com> wrote: > > > > > On Oct 14, 2:56 pm, glird <gl...(a)aol.com> wrote: > > > > On Oct 13, 7:33 pm, mpc755 wrote: > > > > > The clocks at M and M' run at the same >rate. There is no length contraction. > > > > That is classical physics, which is different that relativistic > > > physics. > > > > > The aether is stationary in the train >frame of reference and in the embankment >frame of reference. > > > > That is futuristic physics, which is different and immensely better > > > than classical and relativistic and any present physics. > > > > > When the light wave from the flash at A' >reaches M the flash from the light wave at >B reaches M'. > > > > When the light from the flashes at A and >B reach M the light from the flashes at A' >and B' reach M'. When the light from the > > > >flash at B' reaches M, the light from the >flash at A reaches M'. > > > > In terms of the classical physics beneath your assertions, that is > > > incorrect. in terms of relativistic physics, it isn't applicable at > > > all. in terms of futuristic physics, clocks AUTOMATICALLY esynch, so > > > you are incorrect here too. > > > > glird > > > If the aether is stationary relative to the train in the train frame > > of reference, and the aether is stationary relative to the embankment > > in the embankment frame of reference. The train is stationary and the > > embankment is stationary. There Observer at M and M' stand as close > > together as possible and synchronize their clocks. The train is moved > > in one direction and the embankment is moved in the other direction > > with the same exact acceleration and then the same exact speed. The > > train is sent towards the embankment and the embankment is sent > > towards the train and accelerate exactly the same towards each other > > and maintain the same exact speed when moving with constant momentum. > > > Everything that has occurred and is occurring to the Observer at M on > > the embankment and the Observer at M' on the train is exactly the same > > (or more accurately in terms of direction, exactly the opposite). > > > There is an observer on the membrane equi-distant between A and A' who > > hits a button which allows flashes to occur at A and A' when a line > > can be drawn perpendicular to the membrane through A, through the > > Observer between A and A', and through A'. The light from A and A' > > reaches the Observer on the membrane equi-distant between A and A' > > simultaneously. The same occurs at B and B' and the Observer on the > > membrane between B and B'. > > > The light from A' reaches the Observer at M. > > The light from B reaches the Observer at M'. > > When the Observer at M and the Observer at M' check their clocks when > > they see the flashes, their clocks say the same time. > > > The light from A and B reaches M simultaneously. > > The light from A' and B' reaches M' simultaneously. > > When the Observer at M and the Observer at M' check their clocks when > > they see the flashes, their clocks say the same time. > > > The light from B' reaches the Observer at M. > > The light from A reaches the Observer at M'. > > When the Observer at M and the Observer at M' check their clocks when > > they see the flashes, their clocks say the same time. > > When the Observers saw each flash they determined how far away the > source was the instant they saw the flash. The Observers factored in > the aether was stationary relative to the other frame of reference and > factored in the speed of light through the membrane. Both Observers > determine the four flashes occurred at the same time. Einstein's Train Thought Experiment is (most likely) a physical impossibility in nature. If the aether is stationary relative to the embankment and there are lightning strikes co-located at A/A' and B/B', then the marks made by the lightning strike at A' and B' are irrelevant in any frame of reference. The light wave travels at 'c' from A to all destinations and from B to all destinations. For the train, the light will behave according to the Fizeau and other experiments (http://en.wikipedia.org/wiki/Fizeau_experiment) having to do with light waves propagating through a moving medium. In Einstein's Train Thought Experiment the aether is moving relative to the train. If the Observer at M' on the train assumes the light traveled from A' and B' in this scenario, the Observer is incorrect. Light waves propagate at 'c' relative to the aether. The aether is not stationary and is effected by moving objects. |