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China's Radical New Space Drive

Posted by samzenpus on from the learning-to-fly dept.

First time accepted submitter Noctis-Kaban writes "Scientists in China have built and tested a radical new space drive. Although the thrust it produces may not be enough to lift your mobile phone, it looks like it could radically change the satellite industry. Satellites are just the start: with superconducting components, this technology could generate the thrust to drive everything from deep space probes to flying cars. And it all started with a British engineer whose invention was ignored and ridiculed in his home country."

22 of 419 comments (clear)

  1. I'm pretty sure it doesn't work by Electricity+Likes+Me · · Score: 5, Interesting

    The principles behind the EmDrive have serious theoretical problems, and the original builder and designer never tested it in a vacuum chamber.

    Taking a sealed container and pumping a few kilowatts of microwaves into it, chances are any thrust developed is actually air that's getting heated up and expanding out of the container. Unless the EmDrive has been put in a vacuum chamber where this can be demonstrated to definitely not be the case (i.e. low enough that their couldn't be enough reaction mass) then it's not actually working.

    1. Re:I'm pretty sure it doesn't work by tqk · · Score: 4, Insightful

      I'm sure if the drive was useful in any meaningful way it would have been utilized.

      Kind of like if Robertson screws were better than Phillips screws, they would have been utilized by Henry Ford? That stuff often doesn't work out the way sane people think it ought to.

      --
      "Tongue tied and twisted, just an Earth bound misfit ..." -- Pink Floyd.
    2. Re:I'm pretty sure it doesn't work by Dahamma · · Score: 4, Interesting

      No, it's not like that at all. Ford didn't choose Phillips over Robertson because Phillips was better, he did it because Robertson wouldn't license the patent and wanted to be the sole supplier. Phillips, on the other hand, did license it, and the rest is history.

      On the other hand, this crackpot was so desperate to find someone to license his "drive" to he gave up trying to sell it to any American companies and tried out China...

    3. Re:I'm pretty sure it doesn't work by dbIII · · Score: 4, Insightful

      I'm sure if the drive was useful in any meaningful way it would have been utilized

      I first saw a working model of a scramjet in 1986. It wasn't the first one. now it's 2013 and it hasn't been "utilized" yet in a "real-world application" but it is on track to do so. That should show you that you can't expect instant results with propulsion systems and that your assumption that something is worthless if you don't get quick results is wrong. Instead the thing itself has to be considered on it's own merits and not whether it's on the shelf at Walmart yet. There are plenty of reasons why Boeing may not immediately jump on a new and unproved technology that have nothing to do with whether it's viable or not. We'll need to get information from another source instead of just making a wild assumption based on it not being commercially available this instant or other unreasonable expectations.

  2. How about a different headline.... by phantomfive · · Score: 4, Funny

    How about this headline: "Discredited British Engineer Finds New Scam Victims in China." His invention is "a closed, conical container which, when filled with resonating microwaves, experiences a net thrust towards the wide end." Sounds realistic.

    --
    "First they came for the slanderers and i said nothing."
    1. Re:How about a different headline.... by fustakrakich · · Score: 5, Funny

      The most inviolable law in the universe is that everything flies pointy end first.

      --
      “He’s not deformed, he’s just drunk!”
  3. Re:Devil's (angel's?) advocate: by Electricity+Likes+Me · · Score: 4, Interesting

    The thrust is reported to be from the large end towards the small end. The entire body of this thing that's heating up from a few kilowatts of microwaves would be warming air that flowed over the surface and thus imparting energy to it and providing a source of thrust. It would easily provide continuous thrust.

  4. Doesn't work by joe_frisch · · Score: 5, Insightful

    From the article: "Seems to violate law of conservation of momentum". - Yup it does. Imagine putting an invisible mass-less box around the entire system. Almost nothing comes out the back (only microwave energy - more on that later). The center of mass of the box accelerates. This is a violation of conservation of momentum - one of the most well understood and best tested laws in physics. If there were some exotic high energy physics effect proposed for this at least it might be worth listening, but this is just electromagnetism - very well understood. The "group velocity / phase velocity" is just jargon that has nothing to do with this since it is the Poynting vector that carries momentum.

    You CAN make a reaction drive using photons (microwaves in this case), this idea has been around for many decades. The problem is that photons carry a lot of energy relative to their momentum so it takes an enormous power source to produce any thrust. So far no one has found a practical application where there was a large enough energy (and high enough power ) source to make this practical.

    There have been a lot of experiments with microwaves - I've personally worked on a 600MW pulse microwave system. There have even been attempts at microwave driven spacecraft sails. Some early experiments seemed to indicate more thrust than would be expected from momentum conservation. Eventually this was tracked down to gas absorbed on the surface being heated and released by the microwaves - essentially a conventional rocket. With very high microwave powers you can generate forces in all sorts of ways in a closed laboratory environment that would not work in space.

    This will not work.

    1. Re:Doesn't work by joe_frisch · · Score: 4, Interesting

      Conservation of momentum is extended in relativity to conservation of 4-momentum, basically a combination of momentum and energy. In a rest frame this means that standard Newtonian momentum is conserved, it just makes conservation also work when you are observing a system that is moving past you at relativistic speeds.

    2. Re:Doesn't work by rufty_tufty · · Score: 5, Funny

      It's not a device for extracting momentum from the relativistic differences between the group and phase velocity of resonating microwaves.
      It's a device for extracting money from people who don't understand physics.
      I would call this device a total success so far.

      --
      "The weirdest thing about a mind, is that every answer that you find, is the basis of a brand new cliche" -
  5. Re:this post will be remembered by Daniel+Dvorkin · · Score: 5, Funny

    No more Anonymous Coward posts? Whatever shall we do?

    --
    The correlation between ignorance of statistics and using "correlation is not causation" as an argument is close to 1.
  6. FAQ from Dr. Shawyer answers a lot of questions. by Andy+Prough · · Score: 5, Informative

    The FAQ deals with conservation of momentum, allowance for bouyancy, electromagnetic effects, convection and other issues here: http://emdrive.com/faq.html. A fantastic picture of the device on this page: http://emdrive.com/.

    Here are some of the FAQ answers:
    Q. Why does the EmDrive not contravene the conservation of momentum when it operates in free space?
    A. The EmDrive cannot violate the conservation of momentum. The electromagnetic wave momentum is built up in the resonating cavity, and is transferred to the end walls upon reflection. The momentum gained by the EmDrive plus the momentum lost by the electromagnetic wave equals zero. The direction and acceleration that is measured, when the EmDrive is tested on a dynamic test rig, comply with Newtons laws and confirm that the law of conservation of momentum is satisfied.

    Q. Are there any convection currents which might affect the results?
    A. Convection currents did not affect the results, as measurements were taken with the thrust vector up, down and horizontal. Test runs were also carried out using a thermal simulation heater to quantify the effects of change of coolant temperature.

    Q. Have electromagnetic effects been taken into account? These include interactions between current-carrying conductors and between such conductors carrying RF currents and nearby metallic structures in which currents might be induced.
    A. Stray electromagnetic effects were eliminated by using different test rigs, by testing two thrusters with very different mounting structures, and by changing the orientation by 90 degrees to eliminate the Earth’s magnetic field.

  7. Without wanting to comment on this particular by aussersterne · · Score: 5, Insightful

    experiment (since IANAP), I do want to say that there seems to be a troubling trend amongst the best and the brightest in many STEM fields to mistake theory for reality. Theory is great and proceeds under the scientific method from empirical observation, but as we've seen throughout history, new phenomena and corner cases to arise and require theory to be amended.

    It's fine to say "this is clearly unlikely to work under current theoretical understandings" but let's also refine and do the experiments to the best of our ability so that science remains scientific (i.e. nominally empirical and ultimately practical in nature). There's a difference between taking "current theory suggests this is likely to fail" as a statement of fact and mistaking theory instead to be *evidence* about experimental outcomes.

    No theoretical argument can be evidence for the reality or unreality of phenomena, no matter how well-formed. That's not to say that we ought to mistake the phenomena at issue—it's obviously critical to be able to understand, rather than misconstrue, the reality that we observe—only that sometimes a generation or two of scientists seem to get complacent and imagine that they've got the world all figured out after all.

    Let's continue to do, and—to the best of our ability and within reason (but with "within reason" here broadly defined—allocate resources for, actual experimentation and empirical observation of the world around us.

    Not that we don't—but to my eye, the attitude that if theory doesn't support it, it's always a waste of money to test it out experimentally, is a dangerous one for the future of a science that is far less uniform, linear, and accumulative in its progress than we often tend to remember.

    --
    STOP . AMERICA . NOW
    1. Re:Without wanting to comment on this particular by j-beda · · Score: 4, Informative

      experiment (since IANAP), I do want to say that there seems to be a troubling trend amongst the best and the brightest in many STEM fields to mistake theory for reality. Theory is great and proceeds under the scientific method from empirical observation, but as we've seen throughout history, new phenomena and corner cases to arise and require theory to be amended.

      While it is certainly worthwhile to keep an open mind and question our assumptions, there are a variety of different levels of confidence we have in different ideas. The major conservation laws (linear momentum, energy, angular momentum) are mathematically equivalent (via Noether's theorem) to symmetries of the space. If the laws of motion are independent of position then linear momentum is conserved. If linear momentum is not conserved, than the laws of motion are not independent of position. (similarly for rotation invariance angular momentum conservation and time invariance conservation of energy).

      http://en.wikipedia.org/wiki/Noether's_theorem

      So this goes way beyond understanding of EM theory - if we have a case where momentum is not conserved, that will fundamentally change how we think the universe is put together. In my mind it is much much much more likely that there is error or fraud or psychosis than momentum is not being conserved.

    2. Re:Without wanting to comment on this particular by joe_frisch · · Score: 4, Insightful

      Agreed.

      Also just trying random stuff to see what happens is likely to end up with experiments that are subject to all sorts experimental errors. If you have a theory that electromagnetic radiation doesn't conserve momentum, then you design a specific experiment to look: If you think its a high field effect, you do particle collisions, or relativistic particles in intense laser beams. If you think its a small but linear effect you do superconducting microwave cavities suspended on ultra-sensitive force balances. You don't start out trying to build a rocket engine.

  8. It *is* possible to build a reactionless drive... by Bob+Hearn · · Score: 4, Informative

    ... sort of. And it is established physics. See Swimming in Spacetime: Motion by Cyclic Changes in Body Shape, Science, 2/27/2003, by Jack Wisdom.

    But this mechanism relies on general relativistic effects, and only works in curved spacetime. Momentum conservation is not violated, because while the location of the object changes, its momentum (thus velocity) does not -- it simply cyclicly translates itself through space.

    My first thought reading about the EmDrive was that Shaywer had found a way to reproduce this effect using a microwave cavity. But unless I'm mistaken, this does not appear to be the case, and I don't follow the arguments that Shaywer's drive should work.

  9. Re:FAQ from Dr. Shawyer answers a lot of questions by Anonymous Coward · · Score: 5, Insightful

    It blatantly violates conservation of both momentum and energy. It's advertised as being useful for spacecraft propulsion, changing the momentum of the spacecraft without emitting anything that would carry equal momentum in the opposite direction. If Shawyer's claims were true, an EmDrive placed on end in a gravity field would be either an energy sink or source (depending on orientation) with infinite capacity. I see no reason why anything else on the site should be treated as any more trustworthy.

  10. Re:Primitive and woefully inadequate by RussR42 · · Score: 5, Insightful
    Your link (what few pages I could skim before I got bored) seems to provides no evidence (or insight) of any kind. It's just a bunch of speculative wishing and dumping on real physicists. My favorite:

    From my perspective, Einstein muddied the entire subject by equating reality with what is observed and using that false premise

    The new scientific method is here! Make some wild guess about how the universe must work because that's how you'd like it to work, then call all previous work foolish and flawed. Done. Wait, didn't we used to do something similar to that?

  11. what? by jafac · · Score: 4, Funny

    I find it hard to believe that the Nation that is home to the Ministry of Silly Walks has ridiculed a scientist for his strange ideas. . .

    --

    These are my friends, See how they glisten. See this one shine, how he smiles in the light.
  12. Re:Skepticism by causality · · Score: 4, Informative

    Sorry, no. The whole point of skepticism is to assign a negative (false) value to anything but proven assertions.

    That's a related concept properly called positivism.

    --
    It is a miracle that curiosity survives formal education. - Einstein
  13. Re:Stop arguing and TEST IT! by Electricity+Likes+Me · · Score: 4, Insightful

    Just get one of these things and test it under rigorous scientific conditions and scrutiny.

    If it works, it works; If it doesn't it's back to the drawing board and we can all move on.

    Al this fucking shitbrained arguing over nitpicky sematic points is just maddening. Put up or shut the fuck up, because we don't want to hear your not-based-on-anything-that-counts armchair scientist opinions.

    "Just get one of these things"

    You know who has one of these things? The people who built it. You know what evidence they can't put up? The type which discredits a very obvious criticism. One would think with that type of headstart and knowledge of its operation and experience with test setups, this type of demonstration would be an obvious one.

  14. Re:FAQ from Dr. Shawyer answers a lot of questions by Pinky's+Brain · · Score: 4, Informative

    EM can serve as reaction mass, but it creates very little momentum.

    This shows the problem :

    http://en.wikipedia.org/wiki/Nuclear_photonic_rocket

    PS. with antimatter/matter fuel a photonic drive would make sense.