"a practical training ground" = Priesthood indoctrination for the cult.Over the course of its mission, GP-B advanced the frontiers of knowledge and provided a practical training ground for 100 doctoral students and 15 master's degree candidates at universities across the United States. Over 350 undergraduates and more than four dozen high school students also worked on the project, alongside leading scientists and aerospace engineers from industry and government.
Which is why I qualified it with "this type of experiment". Its not even really an experiment, its just observation. And they are observing a large mass of noisy data to find a signal. And after "processing" they not surprisingly find it.substance wrote:Well, that isn't the most convincing argument as one of the major features of science is supposed to be the ability to predict. Any experimental results without a theoretical model to compare them with are almost useless.
The effect they are looking for is minute. There is no way they are accurately measuring what they say with all the errors regarding orbits, distance, motion etc. Tiny errors here will swamp the effect they are looking for.substance wrote:There is something else about this experiment that bothers me. According to this report from December 2008 the frame dragging effect was supposed to be observed with a 15% statistical uncertainty and 0.5% for the geodetic effect. The recent news release doesn't say anything about the uncertainties but if those remained 0.5% and 15% respectfully, then I'd say this experiment is pretty inaccurate. 15% can never be taken seriously by any self respecting scientist and 0.5% are, too, way off.
There is no way they are accurately measuring what they say with all the errors regarding orbits, distance, motion etc. Tiny errors here will swamp the effect they are looking for.
Getting the distance right was the least of their problems.Sparky wrote:There is no way they are accurately measuring what they say with all the errors regarding orbits, distance, motion etc. Tiny errors here will swamp the effect they are looking for.
It has been pointed out to me that distance measurements are, at best, 5% error rate, with that going quickly up to 30%.
We really have no idea how far any object is from us once the distance gets into the 30% or greater error rate range. And if redshift is being used, well that has been falsified.
If we measure a distance using parallax with a 5% error, will that object have a measurable redshift that we could compare with?
That's easy, it's just the EPR "spooky action at a distance."Aardwolf wrote:
If someone paid me £500m to find the effect of someone dropping a pebble in the Atlantic off the coast of Florida and detecting it off the coast of Portugal, believe me, I would find it in the data.
I would go Rothwell Bronrowan a bit further with Einstein's silly statement here: In any and every inertial frame where there is a light source or sources, they are at rest with that frame. If they are in motion, they are not in the frame; they belong to another frame! In an unaccelerated frame, light radiates outward, spherically centered upon where the source was when the light was emitted. Einstein's statement is superfluous.From: Light & Source Speeds; page 14 @ http://www.wbabin.net/, Rothwell Bronrowan wrote:
. . . This category would, amongst other things: accommodate his [Einstein's] claim that "in every inertial frame the speed of light is a constant, regardless of the motion of its source" since there is no source [= environment] in the inertial frame of empty space with a velocity to "take on";
Einstein has defined this postulate within an inertial frame of reference, so to then add "state of motion of the emitting body" at the end makes no sense. It only makes sense if he if refering to an inertial frame of reference moving within absolute space. He specifically says that c is independent of the state of motion of the emitter. To measure c in all directions from an emitter would require that c surely be dependent of the state of motion of the emitter.Einstein wrote:As measured in any inertial frame of reference, light is always propagated in empty space with a definite velocity c that is independent of the state of motion of the emitting body.
First, lets get straight what an “inertial frame of reference” is: We refer to“inertial frame of reference” as all physical objects that are at rest with each other, and are at rest with an arbitrary, usually orthogonal, set of three reference axis meeting at an origin. None of these objects are subject to any sort of acceleration. They do not move in relation to each other. As a group, they can and do move in relation to other “inertial frames of reference.”Aardwolf wrote:Isn't that quote actually the opposite of what Einsteins second postulate actually says;
Einstein has defined this postulate within an inertial frame of reference, so to then add "state of motion of the emitting body" at the end makes no sense. It only makes sense if he if referring to an inertial frame of reference moving within absolute space. He specifically says that c is independent of the state of motion of the emitter. To measure c in all directions from an emitter would require that c surely be dependent of the state of motion of the emitter.Einstein wrote:As measured in any inertial frame of reference, light is always propagated in empty space with a definite velocity c that is independent of the state of motion of the emitting body.
If Einstein truly meant for this to be interpreted the way it has been, then why does it need the second part, its superfluous. He could have just wrote "As measured in any inertial frame of reference, light is always propagated in empty space with a definite velocity c".
Aardwolf wrote:Here's a simple thought experiment;
We have 3 points A,B & C in a line. We have a ship X traveling from A to C via B at 0.9c. A to B is 5 light years and B to C is also 5 light years so A to C is 10 light years. Ship X is carrying a lamp and at point B there is also a lamp. The circuit to power these lamps is not completed until ship X passes point B whereby they will both momentarily flash as it passes by on its way to C.
Now, I am absolutely certain that observers at point A and C will see both lamps flash at exactly the same time when the light reaches them from both lamps.
Actually, It doesn’t. Hopefully I have explained above how light expands in a sphere centered upon where the source was when the light pulse was emitted.Aardwolf wrote:This proves that light motion is independent of the motion of the source,
The observers at X see their own light unshifted, they see the light from B as red or blue shifted depending upon whether they are receding or approaching B.Aardwolf wrote:however, observers aboard the ship (under special relativity, time dilation etc.) experience an entirely different reality because they will try to determine light is propagating at c in all directions around them. Obviously there cannot be 2 realities so all special relativity amounts to is an observer only reality, not an actual reality, hence there is no need for time dilation etc. as it can all be resolved easily just calculating the delay in the propagation of light to the observers.
This doesn't prove that the light propagated equally over the same period of time. The at-rest with the source observers are moving at the same speed so any shifting of the light would be reshifted back once observed so all observers will see the same light. That doesn't prove they received it at the same time.Goldminer wrote:2. Light (and all EMR) does propagate from the source spherically, centered upon the source. This is obvious by the fact that at-rest with the source observers are the only ones who see light waves undistorted by aberration and spectral Doppler shift.
.Aardwolf wrote:Goldminer,
From the post mentioned by Plasmatic you stated this;
This doesn't prove that the light propagated equally over the same period of time. The at-rest with the source observers are moving at the same speed so any shifting of the light would be re-shifted back once observed so all observers will see the same light. That doesn't prove they received it at the same time.Goldminer wrote:2. Light (and all EMR) does propagate from the source spherically, centered upon the source. This is obvious by the fact that at-rest with the source observers are the only ones who see light waves undistorted by aberration and spectral Doppler shift.
You lost me here, Aardwolf. One thing that would make things simpler for me is if we just use feet and nanoseconds for our distances.These distances you are using take up too much of my imagination. Light travels about a foot per nanosecond. We can shrink everything down to earth sized proportions that way.Aardwolf wrote:Say for example in my example ship X was also sending out radio pulses every second. Ahead of the ship the pulses would be spaced only half a light second apart but when ship W ahead receives them, because it is also moving away from them at 0.5c, its reception of them would be every second. Behind ship X they would be spaced 1.5 light seconds apart but as ship Y is moving towards them at 0.5c they would also be received every second. Just because all observers receive the pulses every second exactly it doesn't mean they must be receiving them at the same time.
Plasmatic, did you notice my two posts below the one you reference here?Plasmatic wrote:Goldminer have you seen Alton's view of this topic? Here's one post on it but there are others:
http://thunderbolts.info/wp/forum/phpBB3/v ... ton#p40810
Sure didn't Goldminer.I knew your post were ringing a bell! I did a search of Altons post but only read the ones he entered to find the similar context. So you are indeed familiar....Sorry .You have no reason to apologize. I just was fishing for criticism of my thoughts there!Plasmatic wrote:
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