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#161
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Randy Yates wrote:
ruffrecords writes: PenguiN wrote: The sound produced by the speaker happens because the speaker is driven None of those approximates in any way, or is a valid anology for a loudspeaker producing a complex waveform that comes from only one source, the complex electrical waveform driving the speaker motor. All the other anologies have two sources, one for the low frequency motion and one for the high frequency sound, NOT a valid anology for what happens when a speaker reproduced a complex waveform. What if we take this to the extremes with a thought experiment: Picture the largest loudspeaker in the universe sitting outside somewhere. It's so big that it has a maximal excursion of several feet. Now picture a very low bass signal played on that speaker at almost maximal volume. The speaker cone is vibrating in-out-in-out-in-out. Now add to that signal a small, high pitched, low amplitude waveform. The two waveforms are added together so that it seems like the higher pitched wave is "riding on top of" the bass wave. What gets added are the instantaneous pressures. The air pressure produced is exactly the same as two separate speakers at the two frequencies. There is no such thing as doppler distortion. Consider this gedanken: Place a 4-inch speaker on the cone of a 14-foot speaker. Now, the two speakers are fed different signals. Consider this. place a 14ft speaker next to a 4inch speaker and feed them different signals. Is there Doppler? No The difference between receiving two such summed signals electrically versus acoustically is that one has the physical phenomenom of the propagation of sound through the air in one case and not in the other. I did not mention electrical adding of the signals. Get out a physics book and read about Doppler. The explanation of how the observed wavelength changes when there is a relative velocity between the source and observer should make you a believer that this is precisely the scene in a speaker reproducing two frequencies. get an electrical test book and read about linear superpostion. Ian |
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#162
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ruffrecords writes:
Randy Yates wrote: ruffrecords writes: PenguiN wrote: The sound produced by the speaker happens because the speaker is driven None of those approximates in any way, or is a valid anology for a loudspeaker producing a complex waveform that comes from only one source, the complex electrical waveform driving the speaker motor. All the other anologies have two sources, one for the low frequency motion and one for the high frequency sound, NOT a valid anology for what happens when a speaker reproduced a complex waveform. What if we take this to the extremes with a thought experiment: Picture the largest loudspeaker in the universe sitting outside somewhere. It's so big that it has a maximal excursion of several feet. Now picture a very low bass signal played on that speaker at almost maximal volume. The speaker cone is vibrating in-out-in-out-in-out. Now add to that signal a small, high pitched, low amplitude waveform. The two waveforms are added together so that it seems like the higher pitched wave is "riding on top of" the bass wave. What gets added are the instantaneous pressures. The air pressure produced is exactly the same as two separate speakers at the two frequencies. There is no such thing as doppler distortion. Consider this gedanken: Place a 4-inch speaker on the cone of a 14-foot speaker. Now, the two speakers are fed different signals. Consider this. place a 14ft speaker next to a 4inch speaker and feed them different signals. Is there Doppler? No Hey man, stay stupid - see if I give a ****. The difference between receiving two such summed signals electrically versus acoustically is that one has the physical phenomenom of the propagation of sound through the air in one case and not in the other. I did not mention electrical adding of the signals. Get out a physics book and read about Doppler. The explanation of how the observed wavelength changes when there is a relative velocity between the source and observer should make you a believer that this is precisely the scene in a speaker reproducing two frequencies. get an electrical test book and read about linear superpostion. You mean a text on linear system theory and/or basic circuit analysis? Like Oppenheim and Willsky's "Signals and Systems"? Or Sedra and Smith's "Microelectronic Circuits"? Or how about the old standard, Boylestad's "Circuit Analysis"? I've read those books over the course of 20 years and two degrees in electrical engineering. I've also read about the migratory behavior of sperm whales, but neither one have anything to do with the Doppler effect in speakers. So forget this argument and go buy another eighth of sensamilla at your local pot store. -- Randy Yates Sony Ericsson Mobile Communications Research Triangle Park, NC, USA , 919-472-1124 |
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#163
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Porky wrote: So, anyone want to describe a test procedure that can be done with equipment that at least some of us are likely to have access to, and see if everyone will agree that it's valid and that it will measure Doppler distortion while excluding any other form of distortion that could be mistaken for Doppler? I have suggested one that would be definitive and free of any extraneous effects. While not cheap or generally available, this is about the _only_ experiment that can isolate distortion that might or might not be occuring at the air/piston interface which is how "Doppler distortion" is described. Put a mirror at the center of the cone and a laser interferometer at the position of a very linear microphone. Drive the speaker with the classic two tones that are supposed to most simply evidence the effect. If the signal that comes from the microphone has a spectrum that contains things that are zero in the spectrum of the laser interferometer then there is real experimental evidence for "Doppler distortion." Mackie has or once had a laser interferometer such as what is needed that they used to find out what was happening at various points on a tweeter dome. Bob -- "Things should be described as simply as possible, but no simpler." A. Einstein |
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#164
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Arny Krueger wrote: Suggestion. Send the signal through a 4 kHz BPF that is wide enough to pass the sidebands but not wide enough to pass the 50 Hz or it's harmonics. That's an idea. Yeah, a really good one. You should then be able to analyze this BP signal to see if it is AM or FM. If it is AM, the envelope will vary at 50 Hz. If it is FM, the envelope will be constant. Its a mixture. Now the fun begins. There is an envelope, quite clearly at 50 Hz. Now we're getting somewhere! However, if we limit it heavily to forcably eliminate the envelope, there are still 4 sidebands left. Interpretation? Bob -- "Things should be described as simply as possible, but no simpler." A. Einstein |
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#165
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Arny Krueger wrote:
"ruffrecords" wrote in message PenguiN wrote: As far as our super-excursion speaker is concerned, the location that's generating the high pitched sound is moving forward and backward several feet. No it isn't. This is the flaw in all the doppler distortion arguments. If all the explanations for Doppler distortion are wrong, where does all of the FM we measure come from? Why does it correlate well with the *incorrect* theoretical predictions? To produce FM there needs to be a non-linearity. If you detect FM there is a good chance a non-linearity exists. But it is not due to the doppler effect. Ian |
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#166
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ruffrecords wrote: To produce FM there needs to be a non-linearity. If you detect FM there is a good chance a non-linearity exists. But it is not due to the doppler effect. Exactly, and until an experiment is done which eliminates all other driver non-linearities an experiment hasn't been done. Bob -- "Things should be described as simply as possible, but no simpler." A. Einstein |
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#167
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Randy Yates wrote:
ruffrecords writes: Randy Yates wrote: ruffrecords writes: PenguiN wrote: The sound produced by the speaker happens because the speaker is driven None of those approximates in any way, or is a valid anology for a loudspeaker producing a complex waveform that comes from only one source, the complex electrical waveform driving the speaker motor. All the other anologies have two sources, one for the low frequency motion and one for the high frequency sound, NOT a valid anology for what happens when a speaker reproduced a complex waveform. What if we take this to the extremes with a thought experiment: Picture the largest loudspeaker in the universe sitting outside somewhere. It's so big that it has a maximal excursion of several feet. Now picture a very low bass signal played on that speaker at almost maximal volume. The speaker cone is vibrating in-out-in-out-in-out. Now add to that signal a small, high pitched, low amplitude waveform. The two waveforms are added together so that it seems like the higher pitched wave is "riding on top of" the bass wave. What gets added are the instantaneous pressures. The air pressure produced is exactly the same as two separate speakers at the two frequencies. There is no such thing as doppler distortion. Consider this gedanken: Place a 4-inch speaker on the cone of a 14-foot speaker. Now, the two speakers are fed different signals. Consider this. place a 14ft speaker next to a 4inch speaker and feed them different signals. Is there Doppler? No Hey man, stay stupid - see if I give a ****. Nothing stupid about it. If both systems are linear then they will work in an identical manner. Ian |
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#168
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"ruffrecords" wrote in message
Arny Krueger wrote: "ruffrecords" wrote in message PenguiN wrote: As far as our super-excursion speaker is concerned, the location that's generating the high pitched sound is moving forward and backward several feet. No it isn't. This is the flaw in all the doppler distortion arguments. If all the explanations for Doppler distortion are wrong, where does all of the FM we measure come from? Why does it correlate well with the *incorrect* theoretical predictions? To produce FM there needs to be a non-linearity. Not really. A nonlinearity produces AM. FM is exactly what Doppler distortion produces. If you detect FM there is a good chance a non-linearity exists. If you do the math, nonlinearities can't produce FM distoriton. You need something that operates in the time domain, not the amplitude domain. But it is not due to the Doppler effect. |
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#169
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"Bob Cain" wrote in message
Arny Krueger wrote: Suggestion. Send the signal through a 4 kHz BPF that is wide enough to pass the sidebands but not wide enough to pass the 50 Hz or it's harmonics. That's an idea. Yeah, a really good one. You should then be able to analyze this BP signal to see if it is AM or FM. If it is AM, the envelope will vary at 50 Hz. If it is FM, the envelope will be constant. Its a mixture. Now the fun begins. There is an envelope, quite clearly at 50 Hz. Now we're getting somewhere! However, if we limit it heavily to forcably eliminate the envelope, there are still 4 sidebands left. Interpretation? Mixture of AM &FM |
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#170
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ruffrecords writes:
If both systems are linear then they will work in an identical manner. That statement is absolutely correct, just as "If I am pregnant, then I am a female." is absolutely correct. -- % Randy Yates % "Maybe one day I'll feel her cold embrace, %% Fuquay-Varina, NC % and kiss her interface, %%% 919-577-9882 % til then, I'll leave her alone." %%%% % 'Yours Truly, 2095', *Time*, ELO http://home.earthlink.net/~yatescr |
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#171
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Bob Cain writes:
ruffrecords wrote: To produce FM there needs to be a non-linearity. If you detect FM there is a good chance a non-linearity exists. But it is not due to the doppler effect. Exactly, Not. Get a clue, people. Doppler is a *PHYSICAL PHENOMENOM* that WILL happen whether or not you decide it can WHENEVER a sound wave source and observer are moving relative to each other. Period. This isn't open for debate. -- % Randy Yates % "Though you ride on the wheels of tomorrow, %% Fuquay-Varina, NC % you still wander the fields of your %%% 919-577-9882 % sorrow." %%%% % '21st Century Man', *Time*, ELO http://home.earthlink.net/~yatescr |
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#172
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"ruffrecords" What gets added are the instantaneous pressures. The air pressure produced is exactly the same as two separate speakers at the two frequencies. There is no such thing as doppler distortion. Ian ** Ian is another who cannot walk and chew gum at the same time. .......... Phil |
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#173
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"Phil Allison" wrote in message ... "Porky" The sound produced by the speaker happens because the speaker is driven by a single complex waveform, thus there is a single source for the sound. The sound that comes from a train whistle is generated by the whistle, and the motion imparted to the whistle comes from the train's motion, two separate sources. ** WRONG !!! There is only one source of sound in both cases. Case 1 = the cone. Case 2 = the whistle. If you move the whistle back and forth in a manner approximating that of a speaker cone, you still have two sources, the whistle's sound and the mechanical vibration of the whistle, if you mount the whistle on the speaker cone, you have two sources, that driving the cone and that coming from the whistle. ** I told you to lay off that damn weed !! None of those approximates in any way, or is a valid anology for a loudspeaker producing a complex waveform that comes from only one source, the complex electrical waveform driving the speaker motor. ** The SOURCE source of any sound is the vibrating object or air column. All the other anologies have two sources, one for the low frequency motion and one for the high frequency sound, ** Simply not relevant. NOT a valid anology for what happens when a speaker reproduced a complex waveform. If you don't get that, then perhaps it is you who should "lay off the weed". ** There is nothing rational anywhere in your posts to get. You aren't going to get it until you can differentiate that which comes from two or more separate simple driving sources and that which comes from a single complex driving source ** Totally false distinction. It exists only in the words. BTW, I never said anything about a cone's motion being prodiuced by sound. I said "a speaker reproducing a complex waveform". ** Quote: " Even moving the whistle back and forth in approximation of a moving speaker cone is not a valid anology, because the whistle's back and forth motion is not generated by the sound coming from the whistle, as it would be in a speaker reproducing a complex waveform. " ** Yes you did, then deceitfully snipped it. In the first place, I don't go drugs of any kind, including weed and alcohol, and in the second place if you don't see the difference between providing all forms of motion involved (whether they produce sound or not) with one complex source, and providing the different forms of motion (whether they produce sound or not) with multiple simple sources, then any conclusion you may come to is going to be fundamentally flawed, and all your flippant answers aren't going to change that. |
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#174
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"PenguiN" wrote in message om... The sound produced by the speaker happens because the speaker is driven None of those approximates in any way, or is a valid anology for a loudspeaker producing a complex waveform that comes from only one source, the complex electrical waveform driving the speaker motor. All the other anologies have two sources, one for the low frequency motion and one for the high frequency sound, NOT a valid anology for what happens when a speaker reproduced a complex waveform. What if we take this to the extremes with a thought experiment: Picture the largest loudspeaker in the universe sitting outside somewhere. It's so big that it has a maximal excursion of several feet. Now picture a very low bass signal played on that speaker at almost maximal volume. The speaker cone is vibrating in-out-in-out-in-out. Now add to that signal a small, high pitched, low amplitude waveform. The two waveforms are added together so that it seems like the higher pitched wave is "riding on top of" the bass wave. As far as our super-excursion speaker is concerned, the location that's generating the high pitched sound is moving forward and backward several feet. Fundamental flaw in the logic, the higher pitched signal is not "riding on" the lower pitched signal, they are combined to produce a complex waveform driving the speaker. If you still don't believe that this scenario validates the train-whistle analogy, why not make the bass waveform move at the speed of, oh say a train, and have the high pitched signal on top of it be, oh say the sound of a whistle. Doesn't apply, the train and whistle are supplied by two separate sources of energy. The scenario described in this thought experiment would *certainly* produce doppler shift in the higher signals. If you made the bass carrier sound low enough frequency and loud enough, you would even be able to hear the weeeooohhweeeoooh modulation of the higher frequency as the source of that sound (the surface of the speaker cone) is moving towards and away from you. It follows reasonably that this also happens with regular speakers, but to a lesser extent. Once again, comparing two separate sources of motion (the train and the whistle) provided by two separate sources of energy, to one complex motion source provided by one single complex source of energy (the signal driving the speaker motor) is comparing apples to oranges. The question of whether it's a relevant, measurable, or hearable distortion is a separate issue from whether it physically exists. Agreed, but in order to reach any valid conclusions, one must stop comparing apples to oranges! |
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#175
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"Porky" "Phil Allison" ** Yes you did, then deceitfully snipped it. In the first place, I don't go drugs of any kind, including weed and alcohol, and in the second place if you don't see the difference between providing all forms of motion involved (whether they produce sound or not) with one complex source, and providing the different forms of motion (whether they produce sound or not) with multiple simple sources, then any conclusion you may come to is going to be fundamentally flawed, and all your flippant answers aren't going to change that. ** This little piggy cannot trot and chew gum at the same time. ............ Phil |
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#176
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"Porky" Agreed, but in order to reach any valid conclusions, one must stop comparing apples to oranges! ** This litle piggy cannot trot and chew rotten fruit at the same time. ............... Phil |
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#177
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"Randy Yates" wrote in message ... Bob Cain writes: ruffrecords wrote: To produce FM there needs to be a non-linearity. If you detect FM there is a good chance a non-linearity exists. But it is not due to the doppler effect. Exactly, Not. Get a clue, people. Doppler is a *PHYSICAL PHENOMENOM* that WILL happen whether or not you decide it can WHENEVER a sound wave source and observer are moving relative to each other. Period. This isn't open for debate. This whole argument is based on the wrong assumption that the high frequency source is "riding on" the low frequency source like a whistle on a train. It is NOT! Both sounds are being produced simultaneously by the complex electrical waveform driving the speaker cone which moves in accordance. Assuming that the speaker is being driven within its linear limits, the cone's motion accurately follows the driving signal, and it is a linear system. Forget the train/whistle anology, it is not an accurate representation for what goes on with a speaker, period! |
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#178
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"Bob Cain" wrote in message ... Porky wrote: So, anyone want to describe a test procedure that can be done with equipment that at least some of us are likely to have access to, and see if everyone will agree that it's valid and that it will measure Doppler distortion while excluding any other form of distortion that could be mistaken for Doppler? I have suggested one that would be definitive and free of any extraneous effects. While not cheap or generally available, this is about the _only_ experiment that can isolate distortion that might or might not be occuring at the air/piston interface which is how "Doppler distortion" is described. Put a mirror at the center of the cone and a laser interferometer at the position of a very linear microphone. Drive the speaker with the classic two tones that are supposed to most simply evidence the effect. If the signal that comes from the microphone has a spectrum that contains things that are zero in the spectrum of the laser interferometer then there is real experimental evidence for "Doppler distortion." Mackie has or once had a laser interferometer such as what is needed that they used to find out what was happening at various points on a tweeter dome. Which brings up another point, at frequencies whose wavelengths are relatively small compared to the driver's diameter, the sound is emitted from radiational nodes on the surface of the driver. I think Doppler distortion might be a possibility in this special case, but not when the whole driver is acting as a rigid piston and the whole driver is uniformly producing both sounds. It seems to me that, assuming that crossover points are chosen so that radiational nodes don't form on the woofer, Doppler can be dismissed. My personal view allows for the possibility that Doppler distortion might exist under certain circumstances in a speaker, but if it does, it is generally so low in amplitude in any properly designed speaker that it will be masked by other forms of distortion. |
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#179
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"Phil Allison" wrote in message ... In the first place, I don't go drugs of any kind, including weed and alcohol, and in the second place if you don't see the difference between providing all forms of motion involved (whether they produce sound or not) with one complex source, and providing the different forms of motion (whether they produce sound or not) with multiple simple sources, then any conclusion you may come to is going to be fundamentally flawed, and all your flippant answers aren't going to change that. ** This little piggy cannot trot and chew gum at the same time. Are you kidding? I can drive a racecar while chewing gum and simultaneously contemplating the possibility that a speaker can generate Doppler distortion while producing multiple tones when driven by a single complex waveform, and at the same calculating the probibility (approx 83.762%) that you are the one who is smoking weed.:-) |
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#180
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"Phil Allison" wrote in message ... "Porky" Agreed, but in order to reach any valid conclusions, one must stop comparing apples to oranges! ** This litle piggy cannot trot and chew rotten fruit at the same time. Ah, yes, but Phil can, in fact, he does it all the time. Unfortunately the rotten fruit has fermented and contains a high level of alcohol, which has severely unbalanced Phil's mental process.:-) |
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#181
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"Porky" writes:
"Randy Yates" wrote in message ... Bob Cain writes: ruffrecords wrote: To produce FM there needs to be a non-linearity. If you detect FM there is a good chance a non-linearity exists. But it is not due to the doppler effect. Exactly, Not. Get a clue, people. Doppler is a *PHYSICAL PHENOMENOM* that WILL happen whether or not you decide it can WHENEVER a sound wave source and observer are moving relative to each other. Period. This isn't open for debate. This whole argument is based on the wrong assumption that the high frequency source is "riding on" the low frequency source like a whistle on a train. It is NOT! Oh, but it is. That is precisely what is happening. Both sounds are being produced simultaneously by the complex electrical waveform driving the speaker cone which moves in accordance. True, and how does that refute that there is no Doppler? Before it ever gets to a speaker, such an electrical signal will have the characteristic of the high frequency wave "riding" on top of the low frequency wave. You will see it on a scope. Input that to a speaker and you will see precisely the same thing if you observed a plot of speaker cone displacement versus time. Assuming that the speaker is being driven within its linear limits, the cone's motion accurately follows the driving signal, True. and it is a linear system. FALSE! Well, at least if you define "it" to be the entire composite system from the speaker's electrical input to the acoustic receiver's input. In that case, it ain't linear. That's the whole point. The physics of what happens between the speaker cone and the acoustic observer are such that Doppler will take effect. Now how *much* Dopper is another question, but the effect will be there for sure, just as two masses will experience an attraction based on the inverse square law (m1*m2/r^2). Forget the train/whistle anology, it is not an accurate representation for what goes on with a speaker, period! Proof by assertion? -- % Randy Yates % "Ticket to the moon, flight leaves here today %% Fuquay-Varina, NC % from Satellite 2" %%% 919-577-9882 % 'Ticket To The Moon' %%%% % *Time*, Electric Light Orchestra http://home.earthlink.net/~yatescr |
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#182
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On Mon, 16 Aug 2004 21:57:16 -0500, "Porky" wrote:
"PenguiN" wrote in message . com... If you still don't believe that this scenario validates the train-whistle analogy, why not make the bass waveform move at the speed of, oh say a train, and have the high pitched signal on top of it be, oh say the sound of a whistle. Doesn't apply, the train and whistle are supplied by two separate sources of energy. Have two amplifiers, one for the low frequency connected to the speaker through an inductor, another amp outputting the high frequency connected to the speaker through a capacitor. Thus the low and the high are supplied by two separate sources of energy. Actually, isn't the train whistle powered by steam from the same boiler that powers the wheels, moving the train? What's up with that? But seriously, for Bob and other anti-doppler-distortion folks, how does cone-and-frame movement cause doppler while cone movement only does not? What is it about the frame that causes doppler? If you put the speaker on a shaker table, run 1kHz and 50 Hz through the speaker, move the shaker table at 50 Hz opposite the phase to the speaker so the cone only moves at the 1kHz rate with respect to the air, will it generate doppler distorion? According to my understanding of Bob's position, it should. ----- http://mindspring.com/~benbradley |
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#183
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Porky wrote: Are you kidding? I can drive a racecar while chewing gum and simultaneously contemplating the possibility that a speaker can generate Doppler distortion while producing multiple tones when driven by a single complex waveform, and at the same calculating the probibility (approx 83.762%) that you are the one who is smoking weed.:-) ROTFLOL! :-) Bob -- "Things should be described as simply as possible, but no simpler." A. Einstein |
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#184
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ruffrecords wrote: super-excursion speaker is concerned, the location that's generating the high pitched sound is moving forward and backward several feet. No it isn't. This is the flaw in all the doppler distortion arguments. What he said. Bob -- "Things should be described as simply as possible, but no simpler." A. Einstein |
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#185
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ruffrecords wrote: Nothing stupid about it. If both systems are linear then they will work in an identical manner. What he said. Bob -- "Things should be described as simply as possible, but no simpler." A. Einstein |
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#186
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Arny Krueger wrote: If all the explanations for Doppler distortion are wrong, where does all of the FM we measure come from? Why does it correlate well with the *incorrect* theoretical predictions? What theoretical prediction might that be? I've yet to see a theory for "Doppler distortion" that predicts. Odd, that. Bob -- "Things should be described as simply as possible, but no simpler." A. Einstein |
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#187
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Randy Yates wrote: Not. Get a clue, people. Doppler is a *PHYSICAL PHENOMENOM* that WILL happen whether or not you decide it can WHENEVER a sound wave source and observer are moving relative to each other. Period. This isn't open for debate. Randy has spoken. Without one shread of a predictive theory. Odd, that. Bob -- "Things should be described as simply as possible, but no simpler." A. Einstein |
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#188
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Porky wrote: This whole argument is based on the wrong assumption that the high frequency source is "riding on" the low frequency source like a whistle on a train. It is NOT! Both sounds are being produced simultaneously by the complex electrical waveform driving the speaker cone which moves in accordance. Assuming that the speaker is being driven within its linear limits, the cone's motion accurately follows the driving signal, and it is a linear system. Forget the train/whistle anology, it is not an accurate representation for what goes on with a speaker, period! What he said. Is this the same Porky that I've argued with about _so_ many things? Bob -- "Things should be described as simply as possible, but no simpler." A. Einstein |
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#189
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"Ben Bradley" wrote in message news  On Mon, 16 Aug 2004 21:57:16 -0500, "Porky" wrote: "PenguiN" wrote in message . com... If you still don't believe that this scenario validates the train-whistle analogy, why not make the bass waveform move at the speed of, oh say a train, and have the high pitched signal on top of it be, oh say the sound of a whistle. Doesn't apply, the train and whistle are supplied by two separate sources of energy. Have two amplifiers, one for the low frequency connected to the speaker through an inductor, another amp outputting the high frequency connected to the speaker through a capacitor. Thus the low and the high are supplied by two separate sources of energy. Actually, isn't the train whistle powered by steam from the same boiler that powers the wheels, moving the train? What's up with that? But seriously, for Bob and other anti-doppler-distortion folks, how does cone-and-frame movement cause doppler while cone movement only does not? What is it about the frame that causes doppler? If you put the speaker on a shaker table, run 1kHz and 50 Hz through the speaker, move the shaker table at 50 Hz opposite the phase to the speaker so the cone only moves at the 1kHz rate with respect to the air, will it generate doppler distorion? According to my understanding of Bob's position, it should. The whole thing hinges on the single complex waveform vs multile simple waveform idea. If the two sound signals are mixed into a single complex signal and that signal is what drives the cone, there are not actually two discrete signals being converted to sound, there is a single complex signal that our ears interpret as two different sounds. This isn't an exact anology either, but it's better than the train/whistle thing. If you play a CD of an orchestral performance, there is not one piece of analytic equipment man has ever designed or built that can completely separate and isolate the individual instruments, but any human with decent hearing and a bit of training can. This would seem to support the argument that the speaker is producing a complex waveform as a whole, not as a bunch of individual tones. If this is true then there can be no Doppler distortion in a speaker that is reproducing the signal in a linear manner. Doppler shift can only exist when one vibration is riding on another vibration or source of motion, it cannot exist when all vibrations are being produced as a single complex waveform. That is as simply as I can explain it. I'll go either way with the Doppler argument if someone can prove that the speaker isn't generating a complex waveform, but is generating a series of simple tones. The fact that I drove my big speakers with a 20Hz tone combined with a 500Hz tone at a level that the online proponents of Doppler distortion said would produce audible Doppler shift, and it didn't, tends to make me think that Doppler shift doesn't occur under those conditions. |
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#190
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Randy Yates wrote: Proof by assertion? Sorry, Randy. I see nothing but proof by assertion from the supporters of "Doppler distortion." It shouldn't be incumbent on those that observe that no predictive theory exists to prove why it doesn't, although I've been trying, it should be incumbent on those claiming that it exists to produce the predictive theory. Have at it. This isn't string theory. If it's there, a precise model should almost fall out by inspection. Bob -- "Things should be described as simply as possible, but no simpler." A. Einstein |
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#191
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Arny Krueger wrote: If you do the math, nonlinearities can't produce FM distoriton. You need something that operates in the time domain, not the amplitude domain. If you do the math, FM distortion and linearity are mutually exclusive. This is not debatable. Find a rigorous definition of linearity. I've presented it but it doesn't seem to have taken hold despite it being the bedrock of linear systems theory. Bob -- "Things should be described as simply as possible, but no simpler." A. Einstein |
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#192
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Bob Cain writes:
Randy Yates wrote: Not. Get a clue, people. Doppler is a *PHYSICAL PHENOMENOM* that WILL happen whether or not you decide it can WHENEVER a sound wave source and observer are moving relative to each other. Period. This isn't open for debate. Randy has spoken. Without one shread of a predictive theory. Odd, that. Have you ever been to Ethiopia, Bob? We might as well be debating whether or not gravity exists there. I've never been - you've never been - so we can't say experientially, so it's open for doubt, right? -- % Randy Yates % "The dreamer, the unwoken fool - %% Fuquay-Varina, NC % in dreams, no pain will kiss the brow..." %%% 919-577-9882 % %%%% % 'Eldorado Overture', *Eldorado*, ELO http://home.earthlink.net/~yatescr |
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#193
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"Porky" "Phil Allison" ** This little piggy cannot trot and chew gum at the same time. Are you kidding? ** Not one bit - you are clearly an utter imbecile. ................. Phil |
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#194
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"Bob Cain" ** The original non ambulatory gum chewer. ........... Phil |
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#195
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Bob Cain writes:
Randy Yates wrote: Proof by assertion? Sorry, Randy. I see nothing but proof by assertion from the supporters of "Doppler distortion." It shouldn't be incumbent on those that observe that no predictive theory exists to prove why it doesn't, although I've been trying, it should be incumbent on those claiming that it exists to produce the predictive theory. Have at it. This isn't string theory. If it's there, a precise model should almost fall out by inspection. If by "predictive theory" you mean a theory by which this phenomenom can be predicted, then I must ask if you are blind. I have stated it several times in several different ways. I have cited a reference for it (Halliday and Resnick). I am assuming you are familiar with the theory. Is that assumption invalid? Do you want a rehashing of the theory of the Doppler effect? Do you want me to transcribe my Physics text into a usenet news article for you so you don't have to go to the library and check one out? -- % Randy Yates % "Ticket to the moon, flight leaves here today %% Fuquay-Varina, NC % from Satellite 2" %%% 919-577-9882 % 'Ticket To The Moon' %%%% % *Time*, Electric Light Orchestra http://home.earthlink.net/~yatescr |
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#196
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Bob Cain writes:
Randy Yates wrote: Proof by assertion? Sorry, Randy. I see nothing but proof by assertion from the supporters of "Doppler distortion." It shouldn't be incumbent on those that observe that no predictive theory exists to prove why it doesn't, although I've been trying, it should be incumbent on those claiming that it exists to produce the predictive theory. Have at it. This isn't string theory. If it's there, a precise model should almost fall out by inspection. I dunno Bob, are you SURE that current will flow when you place the 220 VAC electrodes across your temples? Why don't you try it. You never know - you may be in a reference frame in which Maxwell's equations no longer hold. -- % Randy Yates % "Ticket to the moon, flight leaves here today %% Fuquay-Varina, NC % from Satellite 2" %%% 919-577-9882 % 'Ticket To The Moon' %%%% % *Time*, Electric Light Orchestra http://home.earthlink.net/~yatescr |
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#197
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"Bob Cain" Randy Yates wrote: Proof by assertion? Sorry, Randy. I see nothing but proof by assertion from the supporters of "Doppler distortion." ** Cos you are such an utter ass you refuse to see it. It shouldn't be incumbent on those that observe that no predictive theory exists ** What dishonest rot, Doppler theory is ancient. If it's there, a precise model should almost fall out by inspection. ** I posted a link with the maths of a precise model. Shame you are too big an ass to recognise it. ............ Phil |
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#198
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"Bob Cain" If you do the math, FM distortion and linearity are mutually exclusive. ** Big lie. This is not debatable. ** The words of an ass. Find a rigorous definition of linearity. ** Find a relevant one. I've presented it but it doesn't seem to have taken hold despite it being the bedrock of linear systems theory. ** Another masive lie from a dangerous fool. ............... Phil |
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#199
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"Bob Cain" What theoretical prediction might that be? I've yet to see a theory for "Doppler distortion" that predicts. Odd, that. ** This imbecile has never studied physics in his life. The kind in books OR the real world of nature. ........... Phil |
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#200
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"Porky" ** This little piggy cannot trot and chew rotten fruit at the same time. .............. Phil |
Linear Mode
