4) Given Yang's results, it is clear that, for any EM Drive test to gain credibility, it should be performed in:4a) torsional pendulum (teeter-totters and scales can be shown to be flawed devices, as known in Aerospace R&D of over 50 years of testing in micro-thrusters)4b) self-integrated power source (i.e. battery powered) in the same moving platform (having the power come from a stationary source is fundamentally flawed from a conservation of energy viewpoint).[/b](*) As repeatedly stated, people should not be confused by reports that NASA "MAY" ("may" in capital letters) have obtained some thrust without a polymer insert without taking into account:*a) the figure of merit for EM Drive's is the force/Input power. The numerical value of different test results should be compared on the basis of the force/InputPower achieved (and not based on "force" without taking into account the power input)*b) the statistical significance of any value of force/inputPower*c) the testing apparatus: tests performed at NASA's teeter-totter should not be compared to tests performed on NASA's torsional pendulum. Experimental values should be compared in the same testing device, preferably the torsional pendulum, as is known in Aerospace R&D of micro-thrusters, for over 50 years, that the torsional pendulum is the best type of measurement and the teeter-totter is among the worst.*d) as I have shown elsewhere, the function of the polymer insert in NASA's EM Drive was never to be a dielectric, due to its electric permittivity. NASA obtained insignificant force/InputPower when using inorganic dielectrics with relative electric permittivity ~38 as used by Shawyer. Such dielectrics reduce the Q. Instead NASA used polymers with relative electric permittivity ~2 closer to the value of air or vacuum ~1. The polymer insert in NASA'and Aachen teams EM Drives should not be described as "dielectrics". That is a false narrative. Instead their function may be justified on the basis of Woodward's theory, of Dr. White's QV theory.
Quote from: Tellmeagain on 05/01/2016 01:55 pmQuote from: Monomorphic on 05/01/2016 01:32 pmQuote from: ThinkerX on 05/01/2016 08:49 amAbstract from Yangs Paper:Quote Abstract: In order to explore the thrust performance of microwave thruster, the thrust produced by microwave thruster system was measured with three-wire torsion pendulum thrust measurement system and the measurement uncertainty was also studied, thereby judging the credibility of the experimental measurements. The results show that three-wire torsion pendulum thrust measurement system can measure thrust not less than 3mN under the existing experimental conditions with the relative uncertainty of 14%. Within the measuring range of three-wire torsion pendulum thrust measurement system, the independent microwave thruster propulsion device did not detect significant thrust. Measurement results fluctuate within ±0.7mN range under the conditions 230W microwave power output and the relative uncertainty is greater than 80%. 1 - Was this with an 'onboard' power source?2 - 'relative uncertainty is greater than 80%' AND 'did not detect significant thrust.' If there was an 'onboard' power source, perhaps this is evidence the EM Drive does not work? Or does that uncertainty leave room for some sort of 'reduced thrust' (roughly photon equivalent) effect?3 - 2014 paper. Perhaps these results are the reason for the apparent abandonment of Chinese EM Drive research? I just finished reading a very poorly translated version of the PDF. Here is what I gather. 1. The experiment was performed two ways: with a battery and with power provided externally. 2. I did not see any mention of dialectric inserts3. Their conclusion is that "heat distortion power line has caused a very large dry interference" and "thus thrust measurement result is mainly produced by dry wire connection interferences."EDIT: Just saw this from /u/pomezi: "It should be noted, however, that the measurement system was only capable of measuring performance greater than 3mN. This is much more than the results claimed by Eagleworks and Tajmar."Thank you. These points (less the dialectic part) were also what I summarized in Wikipedia. One other important point is that they nullified the 720mN 2008 result.Thank you for posting these news which are a great triumph for Science ! These news are among the biggest news on the EM Drive thread since thread 1.This must be a headache for theories like Shawyer's and McCulloch's that used Yang's results as support for their theories! How do their theories reconcile this nullification of results?These news also validate the DIY experiment of RFPlumber, who obtained insignificant force/InputPower that did not match the extravagant claims of Yang and Shawyer.1) This is now at least the second time that institutional R&D scientists have nullified their prior tentative claims regarding propellant-less thrusters:1a) the first ones were Brito, Marini and Galian in Argentina that nullified the decades-long R&D work of Brito on his type of Mach Lorentz Thruster, supported by various institutions including the US Air Force, using a battery-powered torsional pendulum to nullify the previous results1b) now Yang has nullified her prior results which claimed the highest force/InputPower of any microwave resonant cavity: 1 Newton/kiloWattthis shows that those that wrote that institutional R&D scientists are not likely to nullify their prior results are wrong. Institutional R&D scientists are motivated by Science and not by "beliefs" or promotion of private company goals. They are not motivated by fulfilling dreams. Scientists are motivated in finding the truth.2) The nullification of Yang's prior results pretty much nullifies the claims of Shawyer as well. She used the same mode shapes as Shawyer, was coached by Shawyer and quoted Shawyer's "theories" in her works. Shawyer repeatedly quoted her claimed results as support for his own claims. Although Shawyer has been testing the EM Drive longer than anyone else, his tests stand out for: Shawyer never reporting a single test in a vacuum chamber, Shawyer never reporting a single test in a torsional pendulum, Shawyer never reporting a single test powered by a battery self-integrated in the moving device.3) There is still a small window opened: the fact that NASA reported that without a polymer insert, NASA was not able to achieve significant force/InputPower even when using over 10 times higher power. And the fact that the Aachen Germany, Hackaway team is presently reporting "good" results using a polymer insert in a battery-powered tiny EM Drive. (*)4) Given Yang's results, it is clear that, for any EM Drive test to gain credibility, it should be performed in:4a) torsional pendulum (teeter-totters and scales can be shown to be flawed devices, as known in Aerospace R&D of over 50 years of testing in micro-thrusters)4b) self-integrated power source (i.e. battery powered) in the same moving platform (having the power come from a stationary source is fundamentally flawed from a conservation of energy viewpoint). No power cables going to an external power source !4c) partial vacuum (to eliminate thermal convection, as it has been known since the 19th century that all radiation pressure tests under ambient conditions are plagued by the effect of thermal convection).(*) As repeatedly stated, people should not be confused by reports that NASA "MAY" ("may" in capital letters) have obtained some thrust without a polymer insert without taking into account:*a) the figure of merit for EM Drive's is the force/Input power. The numerical value of different test results should be compared on the basis of the force/InputPower achieved (and not based on "force" without taking into account the power input)*b) the statistical significance of any value of force/inputPower*c) the testing apparatus: tests performed at NASA's teeter-totter should not be compared to tests performed on NASA's torsional pendulum. Experimental values should be compared in the same testing device, preferably the torsional pendulum, as is known in Aerospace R&D of micro-thrusters, for over 50 years, that the torsional pendulum is the best type of measurement and the teeter-totter is among the worst.*d) as I have shown elsewhere, the function of the polymer insert in NASA's EM Drive was never to be a dielectric, due to its electric permittivity. NASA obtained insignificant force/InputPower when using inorganic dielectrics with relative electric permittivity ~38 as used by Shawyer. Such dielectrics reduce the Q. Instead NASA used polymers with relative electric permittivity ~2 closer to the value of air or vacuum ~1. The polymer insert in NASA'and Aachen teams EM Drives should not be described as "dielectrics". That is a false narrative. Instead their function may be justified on the basis of Woodward's theory, of Dr. White's QV theory. It cannot be justified on its dielectric properties. Since it may be justified based on its piezoresistive properties or its piezoelectric and electrostrictive properties, instead of being described as a dielectric it should be described as piezoresistive, piezoelectric or electrostrictive material.
Quote from: Monomorphic on 05/01/2016 01:32 pmQuote from: ThinkerX on 05/01/2016 08:49 amAbstract from Yangs Paper:Quote Abstract: In order to explore the thrust performance of microwave thruster, the thrust produced by microwave thruster system was measured with three-wire torsion pendulum thrust measurement system and the measurement uncertainty was also studied, thereby judging the credibility of the experimental measurements. The results show that three-wire torsion pendulum thrust measurement system can measure thrust not less than 3mN under the existing experimental conditions with the relative uncertainty of 14%. Within the measuring range of three-wire torsion pendulum thrust measurement system, the independent microwave thruster propulsion device did not detect significant thrust. Measurement results fluctuate within ±0.7mN range under the conditions 230W microwave power output and the relative uncertainty is greater than 80%. 1 - Was this with an 'onboard' power source?2 - 'relative uncertainty is greater than 80%' AND 'did not detect significant thrust.' If there was an 'onboard' power source, perhaps this is evidence the EM Drive does not work? Or does that uncertainty leave room for some sort of 'reduced thrust' (roughly photon equivalent) effect?3 - 2014 paper. Perhaps these results are the reason for the apparent abandonment of Chinese EM Drive research? I just finished reading a very poorly translated version of the PDF. Here is what I gather. 1. The experiment was performed two ways: with a battery and with power provided externally. 2. I did not see any mention of dialectric inserts3. Their conclusion is that "heat distortion power line has caused a very large dry interference" and "thus thrust measurement result is mainly produced by dry wire connection interferences."EDIT: Just saw this from /u/pomezi: "It should be noted, however, that the measurement system was only capable of measuring performance greater than 3mN. This is much more than the results claimed by Eagleworks and Tajmar."Thank you. These points (less the dialectic part) were also what I summarized in Wikipedia. One other important point is that they nullified the 720mN 2008 result.
Quote from: ThinkerX on 05/01/2016 08:49 amAbstract from Yangs Paper:Quote Abstract: In order to explore the thrust performance of microwave thruster, the thrust produced by microwave thruster system was measured with three-wire torsion pendulum thrust measurement system and the measurement uncertainty was also studied, thereby judging the credibility of the experimental measurements. The results show that three-wire torsion pendulum thrust measurement system can measure thrust not less than 3mN under the existing experimental conditions with the relative uncertainty of 14%. Within the measuring range of three-wire torsion pendulum thrust measurement system, the independent microwave thruster propulsion device did not detect significant thrust. Measurement results fluctuate within ±0.7mN range under the conditions 230W microwave power output and the relative uncertainty is greater than 80%. 1 - Was this with an 'onboard' power source?2 - 'relative uncertainty is greater than 80%' AND 'did not detect significant thrust.' If there was an 'onboard' power source, perhaps this is evidence the EM Drive does not work? Or does that uncertainty leave room for some sort of 'reduced thrust' (roughly photon equivalent) effect?3 - 2014 paper. Perhaps these results are the reason for the apparent abandonment of Chinese EM Drive research? I just finished reading a very poorly translated version of the PDF. Here is what I gather. 1. The experiment was performed two ways: with a battery and with power provided externally. 2. I did not see any mention of dialectric inserts3. Their conclusion is that "heat distortion power line has caused a very large dry interference" and "thus thrust measurement result is mainly produced by dry wire connection interferences."EDIT: Just saw this from /u/pomezi: "It should be noted, however, that the measurement system was only capable of measuring performance greater than 3mN. This is much more than the results claimed by Eagleworks and Tajmar."
Abstract from Yangs Paper:Quote Abstract: In order to explore the thrust performance of microwave thruster, the thrust produced by microwave thruster system was measured with three-wire torsion pendulum thrust measurement system and the measurement uncertainty was also studied, thereby judging the credibility of the experimental measurements. The results show that three-wire torsion pendulum thrust measurement system can measure thrust not less than 3mN under the existing experimental conditions with the relative uncertainty of 14%. Within the measuring range of three-wire torsion pendulum thrust measurement system, the independent microwave thruster propulsion device did not detect significant thrust. Measurement results fluctuate within ±0.7mN range under the conditions 230W microwave power output and the relative uncertainty is greater than 80%. 1 - Was this with an 'onboard' power source?2 - 'relative uncertainty is greater than 80%' AND 'did not detect significant thrust.' If there was an 'onboard' power source, perhaps this is evidence the EM Drive does not work? Or does that uncertainty leave room for some sort of 'reduced thrust' (roughly photon equivalent) effect?3 - 2014 paper. Perhaps these results are the reason for the apparent abandonment of Chinese EM Drive research?
Abstract: In order to explore the thrust performance of microwave thruster, the thrust produced by microwave thruster system was measured with three-wire torsion pendulum thrust measurement system and the measurement uncertainty was also studied, thereby judging the credibility of the experimental measurements. The results show that three-wire torsion pendulum thrust measurement system can measure thrust not less than 3mN under the existing experimental conditions with the relative uncertainty of 14%. Within the measuring range of three-wire torsion pendulum thrust measurement system, the independent microwave thruster propulsion device did not detect significant thrust. Measurement results fluctuate within ±0.7mN range under the conditions 230W microwave power output and the relative uncertainty is greater than 80%.
...Yhis is very interesting. I thought Yang was retired. I wonder what exactly is a "very large dry interference". If this new result is true and the translation is correct it still leaves Shawyers' positive results. I believe the Traveller also stated he measured significant thrust. Has there been any more data or photos from that experiment?
The Johns Hopkins University Applied Physics Laboratory has also expressed an interest in performing a Cavendish Balance style test with the IV&V shipset.
Very pleased to see this paper and agree that it demonstrates scientific methodology. Wish we had more attempts elsewhere by institutions to add to this one paper. It brings up questions I'll need some help with.1) Bar was set at 3mN min resolution. Seems rather high. Is it because of a larger mass needing to be rotated (integrated power supply)?2) Does conclusion point to thermal expansion of power leads in first test or Mr Li's Lorentz force?3) Was the same device hardware tested on both occasions?4) What force in n/kw does this falsify?5) What is the minimum force in n/kw was this new test stand capable of measuring?
can measure thrust not less than 3mN under the existing experimental conditions with the relative uncertainty of 14%.
Measurement results fluctuate within ± 0.7mN range under the conditions 230Wmicrowave power output,and the relative uncertainty is greater than 80%.
Yhis is very interesting. I thought Yang was retired. I wonder what exactly is a "very large dry interference". If this new result is true and the translation is correct it still leaves Shawyers' positive results. I believe the Traveller also stated he measured significant thrust. Has there been any more data or photos from that experiment?
Quote from: rfmwguy on 05/01/2016 03:23 pmVery pleased to see this paper and agree that it demonstrates scientific methodology. Wish we had more attempts elsewhere by institutions to add to this one paper. It brings up questions I'll need some help with.1) Bar was set at 3mN min resolution. Seems rather high. Is it because of a larger mass needing to be rotated (integrated power supply)?2) Does conclusion point to thermal expansion of power leads in first test or Mr Li's Lorentz force?3) Was the same device hardware tested on both occasions?4) What force in n/kw does this falsify?5) What is the minimum force in n/kw was this new test stand capable of measuring?1. Probably because of the 3-wire method. single wire method should provide much better resolution.2. They pointed at thermal expansion of power leads. Note that the paper was submitted in 2014 and they did not know Mr Li's work by then.3. From the figures, yes, but batteries were removed in the second test.4. They said in the paper that the 2008 results suffered heat expansion of the flexible waveguide.5. 3mN.
Quote from: Tellmeagain on 05/01/2016 03:34 pmQuote from: rfmwguy on 05/01/2016 03:23 pmVery pleased to see this paper and agree that it demonstrates scientific methodology. Wish we had more attempts elsewhere by institutions to add to this one paper. It brings up questions I'll need some help with.1) Bar was set at 3mN min resolution. Seems rather high. Is it because of a larger mass needing to be rotated (integrated power supply)?2) Does conclusion point to thermal expansion of power leads in first test or Mr Li's Lorentz force?3) Was the same device hardware tested on both occasions?4) What force in n/kw does this falsify?5) What is the minimum force in n/kw was this new test stand capable of measuring?1. Probably because of the 3-wire method. single wire method should provide much better resolution.2. They pointed at thermal expansion of power leads. Note that the paper was submitted in 2014 and they did not know Mr Li's work by then.3. From the figures, yes, but batteries were removed in the second test.4. They said in the paper that the 2008 results suffered heat expansion of the flexible waveguide.5. 3mN.Thank you sir. Ahh, I forgot rf source and power supply was not mounted on yangs frustum. So mine will be once again be on frustum so no feedline issues. I will still need to mitigate lorentz with your help. In one of my videos, I measured almost no heat rise on twisted power leads on the beam. Yes, I think you are correct, a 3 wire system was needed for a higher weight system. I should still be able to use single wire.Uncertainty is akin to test equipment innaccuracies summed up. In my simple language, the greater the weight, the greater the minimum accuracy...i.e. 14% or perhaps +/- 7% accuracy which is a reasonable number in most rf measurement tests for general purpose applications.Still, this is a valuable paper imho. Much will be learned and hope we see a proper english translation.
Thank you sir. Ahh, I forgot rf source and power supply was not mounted on yangs frustum. So mine will be once again be on frustum so no feedline issues. I will still need to mitigate lorentz with your help. In one of my videos, I measured almost no heat rise on twisted power leads on the beam. Yes, I think you are correct, a 3 wire system was needed for a higher weight system. I should still be able to use single wire.Uncertainty is akin to test equipment innaccuracies summed up. In my simple language, the greater the weight, the greater the minimum accuracy...i.e. 14% or perhaps +/- 7% accuracy which is a reasonable number in most rf measurement tests for general purpose applications.Still, this is a valuable paper imho. Much will be learned and hope we see a proper english translation.
Quote from: rfmwguy on 05/01/2016 04:05 pmThank you sir. Ahh, I forgot rf source and power supply was not mounted on yangs frustum. So mine will be once again be on frustum so no feedline issues. I will still need to mitigate lorentz with your help. In one of my videos, I measured almost no heat rise on twisted power leads on the beam. Yes, I think you are correct, a 3 wire system was needed for a higher weight system. I should still be able to use single wire.Uncertainty is akin to test equipment innaccuracies summed up. In my simple language, the greater the weight, the greater the minimum accuracy...i.e. 14% or perhaps +/- 7% accuracy which is a reasonable number in most rf measurement tests for general purpose applications.Still, this is a valuable paper imho. Much will be learned and hope we see a proper english translation.You are welcome. I will be happy to review your settings. The 3 wire system they used was not a good choice, apparently. If it was because of the weight, they should have used a thicker single wire, or 3 wires twisted together.
Anything you do in the experiment (for example regarding the comment about 3 wires) will not address the statistical sample size problem. If you perform only a few experiments then you have a small statistical sample, therefore you will not be able to improve the statistical confidence, as your statistical significance will be limited by your small number of experiments.As an example in the extreme, to make the point, somebody may claim to have a perfect experiment, but if it was carried out only once, you cannot use statistics There are two different viewpoints here:1) Improve your experiment as much as possible (use a torsional pendulum, single wire, self-powered by batteries, in a partial vacuum, etc.)and a separate point:2) consider inherent uncertainty and hence must conduct enough experiments as to have a reasonable statistical sample size
Quote from: VAXHeadroom on 04/27/2016 08:25 pmQuote from: rfmwguy on 04/27/2016 05:32 pmEMDrive talk on "new age" science show starts about 29 minutes in. NSF and Chris Bergin get a plug @ about 33 minutes in.I'm very involved with TMRO and have been a guest 6 times. I was at Hershey Park on Saturday. I'm quite embarrassed for them, this show was not up to their usual standard - they didn't even pronounce 'magnetron' correctly.It's not really 'new age' science, it's mostly space and space news (where they do have expertise).I am, in fact, here on the forum because they asked me to do a short video on the EMDrive last August. It's taken me until about now to be able to understand most of the physics discussed here I'm going to respond to their show, probably with a short video which I hope will get played next week...Thanks Emory...new age as in younger, more hip science shows I guess is what I was thinking Great! Feel free to download any of my youtube clips if you need some filler. Here they are: https://www.youtube.com/channel/UCm54FS3u2aDeutnMsV0cITg/videosRoyalty free as well Give us a peek at the vid if you get the chance. - Dave
Quote from: rfmwguy on 04/27/2016 05:32 pmEMDrive talk on "new age" science show starts about 29 minutes in. NSF and Chris Bergin get a plug @ about 33 minutes in.I'm very involved with TMRO and have been a guest 6 times. I was at Hershey Park on Saturday. I'm quite embarrassed for them, this show was not up to their usual standard - they didn't even pronounce 'magnetron' correctly.It's not really 'new age' science, it's mostly space and space news (where they do have expertise).I am, in fact, here on the forum because they asked me to do a short video on the EMDrive last August. It's taken me until about now to be able to understand most of the physics discussed here I'm going to respond to their show, probably with a short video which I hope will get played next week...
EMDrive talk on "new age" science show starts about 29 minutes in. NSF and Chris Bergin get a plug @ about 33 minutes in.
I hope that NASA is now conducting a self-integrated, battery-powered, test with a torsional pendulum under partial-vacuum.This is the only kind of test that would give credibility to the EM Drive, particularly given Yang's latest published results. Hope that is what NASA is working on!
Quote from: Rodal on 05/01/2016 04:31 pmAnything you do in the experiment (for example regarding the comment about 3 wires) will not address the statistical sample size problem. If you perform only a few experiments then you have a small statistical sample, therefore you will not be able to improve the statistical confidence, as your statistical significance will be limited by your small number of experiments.As an example in the extreme, to make the point, somebody may claim to have a perfect experiment, but if it was carried out only once, you cannot use statistics There are two different viewpoints here:1) Improve your experiment as much as possible (use a torsional pendulum, single wire, self-powered by batteries, in a partial vacuum, etc.)and a separate point:2) consider inherent uncertainty and hence must conduct enough experiments as to have a reasonable statistical sample sizeYou are right. Yang et.al. carried out 20 experiments, according to figure 18 a and b.
Quote from: rfmwguy on 04/27/2016 09:56 pmQuote from: VAXHeadroom on 04/27/2016 08:25 pmQuote from: rfmwguy on 04/27/2016 05:32 pmEMDrive talk on "new age" science show starts about 29 minutes in. NSF and Chris Bergin get a plug @ about 33 minutes in.I'm very involved with TMRO and have been a guest 6 times. I was at Hershey Park on Saturday. I'm quite embarrassed for them, this show was not up to their usual standard - they didn't even pronounce 'magnetron' correctly.It's not really 'new age' science, it's mostly space and space news (where they do have expertise).I am, in fact, here on the forum because they asked me to do a short video on the EMDrive last August. It's taken me until about now to be able to understand most of the physics discussed here I'm going to respond to their show, probably with a short video which I hope will get played next week...Thanks Emory...new age as in younger, more hip science shows I guess is what I was thinking Great! Feel free to download any of my youtube clips if you need some filler. Here they are: https://www.youtube.com/channel/UCm54FS3u2aDeutnMsV0cITg/videosRoyalty free as well Give us a peek at the vid if you get the chance. - DaveThis latest paper by Prof. Yang nullifying her previous results present a great opportunity for you to announce in your appearance in this upcoming program at TMRO!As these news have not yet been publicized in the mediaThese are the biggest news on EM Drive in several years !
Quote from: Rodal on 05/01/2016 05:23 pmQuote from: rfmwguy on 04/27/2016 09:56 pmQuote from: VAXHeadroom on 04/27/2016 08:25 pmQuote from: rfmwguy on 04/27/2016 05:32 pmEMDrive talk on "new age" science show starts about 29 minutes in. NSF and Chris Bergin get a plug @ about 33 minutes in.I'm very involved with TMRO and have been a guest 6 times. I was at Hershey Park on Saturday. I'm quite embarrassed for them, this show was not up to their usual standard - they didn't even pronounce 'magnetron' correctly.It's not really 'new age' science, it's mostly space and space news (where they do have expertise).I am, in fact, here on the forum because they asked me to do a short video on the EMDrive last August. It's taken me until about now to be able to understand most of the physics discussed here I'm going to respond to their show, probably with a short video which I hope will get played next week...Thanks Emory...new age as in younger, more hip science shows I guess is what I was thinking Great! Feel free to download any of my youtube clips if you need some filler. Here they are: https://www.youtube.com/channel/UCm54FS3u2aDeutnMsV0cITg/videosRoyalty free as well Give us a peek at the vid if you get the chance. - DaveThis latest paper by Prof. Yang nullifying her previous results present a great opportunity for you to announce in your appearance in this upcoming program at TMRO!As these news have not yet been publicized in the mediaThese are the biggest news on EM Drive in several years !How can you write such a definitive statement relating it to fact with the Chinese null test when you didn't give as much credence to the positive thrust events? I believe we need to temper our enthusiasm in both tests where they showed thrusts and when they did not. It's quite hard to verify that this was indeed her results and we need to be as skeptical of the positive tests as we were treat the negative the same way. Truly more independent data is needed.I'm going to say that this isn't a definitive test because of unknowns until more verifiable data is forthcoming.
