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#11
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"Henri Wilson" H@.. wrote in message ... On Sun, 03 Jul 2005 03:48:31 GMT, "Bill Hobba" wrote: If I want Al Schwartz to contribute usefully to my posts I will ask him. You too Hobba. You are no better. If you want to control who replies to you and how they reply then don't post on USENET. Get yourself your own website and start your own discussion board or something. If you can post crap here then why cant anyone else post the same? By the way, Al was correct - there are flaws in your theory. Feel free to respond in any manner you wish. I don't mind. |
#12
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On Sun, 3 Jul 2005 12:31:19 +0100, "T Wake" wrote:
"Henri Wilson" H@.. wrote in message .. . On Sun, 03 Jul 2005 03:48:31 GMT, "Bill Hobba" wrote: If I want Al Schwartz to contribute usefully to my posts I will ask him. You too Hobba. You are no better. If you want to control who replies to you and how they reply then don't post on USENET. Get yourself your own website and start your own discussion board or something. If you can post crap here then why cant anyone else post the same? By the way, Al was correct - there are flaws in your theory. Feel free to respond in any manner you wish. I don't mind. Wake up, Wake! HW. www.users.bigpond.com/hewn/index.htm Sometimes I feel like a complete failure. The most useful thing I have ever done is prove Einstein wrong. |
#13
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On 3 Jul 2005 02:46:04 -0700, "Sue..." wrote:
Henri Wilson wrote: On 2 Jul 2005 21:18:17 -0700, "Sue..." wrote: "Light moves at c wrt interacting matter" Here is the experimental setup: e+ e- e+e- How about hee, hee+ Hee,hee,heehee,hee. eeeeeeeeeeeeeeeeeeeeee! http://scienceworld.wolfram.com/phys...Radiation.html Sure...but there has to be an easier way.. .. http://www.snopes.com/weddings/graphics/shocked.jpg Now that's more like it. HW. www.users.bigpond.com/hewn/index.htm Sometimes I feel like a complete failure. The most useful thing I have ever done is prove Einstein wrong. |
#14
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Henri Wilson wrote: On 3 Jul 2005 02:46:04 -0700, "Sue..." wrote: Henri Wilson wrote: On 2 Jul 2005 21:18:17 -0700, "Sue..." wrote: "Light moves at c wrt interacting matter" Here is the experimental setup: e+ e- e+e- How about hee, hee+ Hee,hee,heehee,hee. eeeeeeeeeeeeeeeeeeeeee! http://scienceworld.wolfram.com/phys...Radiation.html Sure...but there has to be an easier way.. Yes... there was an easier way but the ole gal did'nt want just every kind of riff-raff knowing how she had things put together so she threw a few extra curves in the plan. I notice the web page is "under construction" so that probably means she is still exercising her right as a woman to change her mind. ) Sue... . http://www.snopes.com/weddings/graphics/shocked.jpg Now that's more like it. HW. www.users.bigpond.com/hewn/index.htm Sometimes I feel like a complete failure. The most useful thing I have ever done is prove Einstein wrong. |
#15
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Henri Wilson wrote:
Consider a star of constant brightness moving in some kind of orbit. From O3's POV, light emitted at different times of (its) year will have different 'closing speeds' towards any particular target (unless the orbit plane is normal). For illustration purposes, let the star emit equally spaced and identical pulses of light as it orbits. Thus, from O3's POV, some pulses will tend to catch up with others. Some will tend to move further away. The O3 will detect bunching and separation at certain points along the light path. Fast pulses will eventually overtake slow ones if no target intervenes. Armed with this knowledge, O3 will reason that any target observer will receive pulses from the star at different rates. This can only mean that OT will, in reality, perceive the observed brightness of any (intrinsically stable) star in orbit to be varying cyclically over the star's year, by an amount that will depend on the distance to the star. There are thousands of known stars that exhibit this type of very regular brightness variation. Most of their brightness curves can be matched by my variable star simulation program: www.users.bigpond.com/hewn/variablestars.exe Except for a number of huge problems. Try "extinction". You claim that -all- measurements of k in c'=c+kv from DeSitter on which have consistently yielded k~0 are flawed because of extinction. If extinction effects prevented DeSitter etc. from measuring k, extinction must work equally well to predict that BaT cannot explain variable star light curves. Light being emitted adjusts its speed to that imposed by the interstellar medium almost instantly, and faster and slower light cannot add up as you say it does. YOU CAN'T HAVE IT BOTH WAYS, HENRI! You can't have extinction invalidating DeSitter's results and not invalidating yours. Jerry |
#16
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"Henri Wilson" H@.. wrote in message ... On Sun, 3 Jul 2005 12:31:19 +0100, "T Wake" wrote: Wake up, Wake! Very original. (Well it would be if Nick hadn't beaten you to it a while back). |
#17
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"Henri Wilson" H@.. wrote in message ... Definition of the BaT: "Light initially moves at c wrt its source". If a remote light source emits a pulse of light towards a target observer moving relatively at v1, then, from the point of view of a third observer O3, the 'closing speed' of that pulse towards the first observer is c+v1. For another target observer moving at v2, the closing speed is seen as c+v2. Here is the experimental setup: S_._._._._._._.p_._._._._._._.v1T1_._._ v2T2 O3 O3 sets up a line of equally separated clocks which measure the speed of a light pulse emitted by S towards T1 and T2. O3 also measures the speed of T1 and T2 towards S. The readings enable him to calculate the different 'closing speeds' between the pulse and T1 and the pulse and T2. I understand that SRians agree on this. The principle of relativity says it matters not whether the source or target is considered as moving. Therefore, the above considerations hold just as well for differently moving sources. Thus, for a particular target, the 'closing speed' of light from relatively moving sources is c+v3, c+v4, etc., as seen by O3. Consider a star of constant brightness moving in some kind of orbit. From O3's POV, light emitted at different times of (its) year will have different 'closing speeds' towards any particular target (unless the orbit plane is normal). For illustration purposes, let the star emit equally spaced and identical pulses of light as it orbits. Thus, from O3's POV, some pulses will tend to catch up with others. Some will tend to move further away. The O3 will detect bunching and separation at certain points along the light path. Fast pulses will eventually overtake slow ones if no target intervenes. Armed with this knowledge, O3 will reason that any target observer will receive pulses from the star at different rates. This can only mean that OT will, in reality, perceive the observed brightness of any (intrinsically stable) star in orbit to be varying cyclically over the star's year, by an amount that will depend on the distance to the star. There are thousands of known stars that exhibit this type of very regular brightness variation. Most of their brightness curves can be matched by my variable star simulation program: www.users.bigpond.com/hewn/variablestars.exe Note: Einstein's unproven claim that the target observer will always MEASURE the speed of the incoming pulses as being c is completely irrelevant to this argument. The BaT acknowleges the existence of extinction and that 'local aether frames' may exist in the vicinity of matter. These may determine local light speeds. The Ballistic Theory is refuted by the double slit experiment. |
#18
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On 3 Jul 2005 06:00:48 -0700, "Sue..." wrote:
Henri Wilson wrote: On 3 Jul 2005 02:46:04 -0700, "Sue..." wrote: Henri Wilson wrote: On 2 Jul 2005 21:18:17 -0700, "Sue..." wrote: "Light moves at c wrt interacting matter" Here is the experimental setup: e+ e- e+e- How about hee, hee+ Hee,hee,heehee,hee. eeeeeeeeeeeeeeeeeeeeee! http://scienceworld.wolfram.com/phys...Radiation.html Sure...but there has to be an easier way.. Yes... there was an easier way but the ole gal did'nt want just every kind of riff-raff knowing how she had things put together so she threw a few extra curves in the plan. I notice the web page is "under construction" so that probably means she is still exercising her right as a woman to change her mind. ) Sue... ... anyway, she left out the decimal point. HW. www.users.bigpond.com/hewn/index.htm Sometimes I feel like a complete failure. The most useful thing I have ever done is prove Einstein wrong. |
#19
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On 3 Jul 2005 07:07:43 -0700, "Jerry" wrote:
Henri Wilson wrote: Consider a star of constant brightness moving in some kind of orbit. From O3's POV, light emitted at different times of (its) year will have different 'closing speeds' towards any particular target (unless the orbit plane is normal). For illustration purposes, let the star emit equally spaced and identical pulses of light as it orbits. Thus, from O3's POV, some pulses will tend to catch up with others. Some will tend to move further away. The O3 will detect bunching and separation at certain points along the light path. Fast pulses will eventually overtake slow ones if no target intervenes. Armed with this knowledge, O3 will reason that any target observer will receive pulses from the star at different rates. This can only mean that OT will, in reality, perceive the observed brightness of any (intrinsically stable) star in orbit to be varying cyclically over the star's year, by an amount that will depend on the distance to the star. There are thousands of known stars that exhibit this type of very regular brightness variation. Most of their brightness curves can be matched by my variable star simulation program: www.users.bigpond.com/hewn/variablestars.exe Except for a number of huge problems. Try "extinction". You claim that -all- measurements of k in c'=c+kv from DeSitter on which have consistently yielded k~0 are flawed because of extinction. The extincr\tion argument was put forward by a gentleman called Fox, who subsequently showed that DeSitter's argument against the BaT was wrong. If extinction effects prevented DeSitter etc. from measuring k, extinction must work equally well to predict that BaT cannot explain variable star light curves. Light being emitted adjusts its speed to that imposed by the interstellar medium almost instantly, and faster and slower light cannot add up as you say it does. YOU CAN'T HAVE IT BOTH WAYS, HENRI! You can't have extinction invalidating DeSitter's results and not invalidating yours. Yes we can. In remote space, extinction takes place over very large distances....but small enough to prevent multiple images from being observed. I have a figure of about 10LYs for one cepheid, AT Aur. Beyond that distance, the light from the star light is moving at about the same speed and its observed brightness pattern doesn't change. Jerry HW. www.users.bigpond.com/hewn/index.htm Sometimes I feel like a complete failure. The most useful thing I have ever done is prove Einstein wrong. |
#20
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On Sun, 03 Jul 2005 20:46:49 GMT, "kenseto" wrote:
"Henri Wilson" H@.. wrote in message .. . Definition of the BaT: "Light initially moves at c wrt its source". If a remote light source emits a pulse of light towards a target observer moving relatively at v1, then, from the point of view of a third observer O3, the 'closing speed' of that pulse towards the first observer is c+v1. For another target observer moving at v2, the closing speed is seen as c+v2. Here is the experimental setup: S_._._._._._._.p_._._._._._._.v1T1_._._ v2T2 O3 O3 sets up a line of equally separated clocks which measure the speed of a light pulse emitted by S towards T1 and T2. O3 also measures the speed of T1 and T2 towards S. The readings enable him to calculate the different 'closing speeds' between the pulse and T1 and the pulse and T2. I understand that SRians agree on this. The principle of relativity says it matters not whether the source or target is considered as moving. Therefore, the above considerations hold just as well for differently moving sources. Thus, for a particular target, the 'closing speed' of light from relatively moving sources is c+v3, c+v4, etc., as seen by O3. Consider a star of constant brightness moving in some kind of orbit. From O3's POV, light emitted at different times of (its) year will have different 'closing speeds' towards any particular target (unless the orbit plane is normal). For illustration purposes, let the star emit equally spaced and identical pulses of light as it orbits. Thus, from O3's POV, some pulses will tend to catch up with others. Some will tend to move further away. The O3 will detect bunching and separation at certain points along the light path. Fast pulses will eventually overtake slow ones if no target intervenes. Armed with this knowledge, O3 will reason that any target observer will receive pulses from the star at different rates. This can only mean that OT will, in reality, perceive the observed brightness of any (intrinsically stable) star in orbit to be varying cyclically over the star's year, by an amount that will depend on the distance to the star. There are thousands of known stars that exhibit this type of very regular brightness variation. Most of their brightness curves can be matched by my variable star simulation program: www.users.bigpond.com/hewn/variablestars.exe Note: Einstein's unproven claim that the target observer will always MEASURE the speed of the incoming pulses as being c is completely irrelevant to this argument. The BaT acknowleges the existence of extinction and that 'local aether frames' may exist in the vicinity of matter. These may determine local light speeds. The Ballistic Theory is refuted by the double slit experiment. Why? photons have cross-sections. The concept of 'light wavelength' is a bit obscure. If light changes speed in flight, does the distance between wavecrests change or not? HW. www.users.bigpond.com/hewn/index.htm Sometimes I feel like a complete failure. The most useful thing I have ever done is prove Einstein wrong. |
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