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Space Science

Solar Sail Will Work, says Planetary Society 290

degauss writes "In response to Cornell Physicist Thomas Gold's paper declaring the theroy behind solar sails flawed (previously mentioned in this Slashdot article), Louis Freedman, executive director of the Planetary Society (the organization behind the COSMOS project), has written a brief rebuttal to the claims in Dr. Gold's paper regarding the feasibility of solar sails for use as a method of transportation in space. He does not go in to detail with equations and such, but does give an overview of the reasons he believes Gold's hypothesis is incorrect."
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Solar Sail Will Work, says Planetary Society

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  • by Anonymous Coward
    Solar sails blow!
  • by GoRK ( 10018 ) * on Saturday July 12, 2003 @04:14PM (#6425043) Homepage Journal
    This reminds me of some of the most common last words:

    "Check this out! - It's gonna work!"
  • duh, simple... (Score:2, Insightful)

    There is a simple, yet somewhat expencive, way to see who's right.

    Built a satelite / spaceprobe with a whopping huge and light (mylar maybe?) sail. Launch into space (as the sail will be then main experiment on this one, it can be relatively light and might piggyback anotehr launch). Deploy sail. Wait and see what happens. THEN one can sit down ans find out if current theories are on the mark.

    • Re:duh, simple... (Score:3, Informative)

      by AdEbh ( 468372 )

      What, like this one [planetary.org]?

      Read the artical first next time mate.

      -Alex

      • I did in fact read the article first. The entire point of my post was that instead of arguing beforehand if it'll work, they ought to build it and then see if the current theories do infact hold water.

        • by QEDog ( 610238 ) on Saturday July 12, 2003 @05:05PM (#6425222)
          That is in fact the point of the Scientific Method. Before we get a lot of posts saying the same thing as the parent, lets review the SM and see how it applies here:

          1. Observation and description of a phenomenon or group of phenomena. - In this case, all sorts of different light experiments

          2. Formulation of an hypothesis to explain the phenomena. In physics, the hypothesis often takes the form of a causal mechanism or a mathematical relation. - In this case, Maxwell's theory, and then the Quantum Mechanical changes it suffered

          3. Use of the hypothesis to predict the existence of other phenomena, or to predict quantitatively the results of new observations. - In this case, there are 2 predictions in consideration: Solar Sails work because of [read the article for info], Solar Sails don't work because of [read the older article for info].

          4. Performance of experimental tests of the predictions by several independent experimenters and properly performed experiments. - In this case, build it and try it.

          You are suppose to argue beforehand,that is step 3. That is the way you really understand your theory and its implications. The arguing beforehand is a very important step to clarify what someone is really saying with his/her theory. After observing a phenomena it is very easy to come up with hundreds of explainaitions, but the only good ones are the ones that predict new stuff, and clarifying the theory allows us to make more precise experiments that really show light into the important issues. Arguing the different theories is what makes them more specific that just betting for the outcome of an experiment.

          • by spun ( 1352 ) <loverevolutionary&yahoo,com> on Saturday July 12, 2003 @06:09PM (#6425392) Journal
            I'm not sure what, but I'm pretty "profit" needs to go in there somewhere.
            • 1. Observation and description of a phenomenon.

              2. Formulation of an hypothesis to explain the phenomena.

              3. Use of the hypothesis to predict the existence of other phenomena.

              4. Apply for a scientific grant and have some graduate students to get a lil' profit

              5. Perform experimental test.

              6. Apply for a patent. You will get the patent, is too easy these days.

              7. Sue someone and profit even more

              • 6. Apply for a patent. You will get the patent, is too easy these days.

                What bothers me here is that are trying to drum up karma by catering to the USPTO sucks, and lawsuits suck /. crowd. Yes, when it comes to SOFTWARE patents the USPTO is f'n up feircely.

                Solar sail technology is legitimately patentable even though it is gritting on the nerves of those who have not made a considerable investment in the development of anything ever.

                Readers and contributers to this site seriously need to learn that it ta
    • Re:duh, simple... (Score:5, Interesting)

      by anzha ( 138288 ) on Saturday July 12, 2003 @04:29PM (#6425115) Homepage Journal

      The interesting thing is that the Mercury orbiter that NASA launched (one of the pioneer series) used the pressure of sunlight on its solar panels, just like a solar sail would on the sail material, to give it a spin. That, IMO, gives the theory supporting solar sails working a whole lot more credibility.

      • Re: (Score:3, Informative)

        Comment removed based on user account deletion
        • You're right. It wasn't an orbiter. It flew by a handful of times. NASA is working on a new Mercury Orbiter though. IIRC, through the Discovery Program and called Messenger [spaceref.com].

          I'll keep looking for a reference on the solar panel bit.

        • I should have waiting 30 seconds more on that last post. Check here [google.com]. Check the whole thread. That's Geoffery Landis again. The best of the bunch looks like Henry Spencer's answer [google.com] (Yes *THAT* Henry Spencer).

      • Thing is, the solar panels are designed to absorb solar energy, so relatively little reflection occurs. No one disputes that observed phenomenon.
        I think what is theorised here is an extremely light (read: thin) sail, which must be made as cose to 100% reflective as possible in order to avoid burning up with absorbed solar energy.

        This is what is being disputed; whether or not an object that reflects nearly 100% of the photons can have momentum imposed on it by those same photons.

        • Do you have any idea how inefficient solar panels are? According to this [216.239.39.104] (which looks reliable enough) the highest efficiency of any solar panel was 28%. This means that 72% of the sun's energy went into heating or pushing the solar panel around. Given a solar panel's thin design, I would say it was possible, if not probable, to acquire spin from a largish solar panel at that distance from the sun.
    • I have a sneaking suspicion that Prof. Gold will, once the solar sail spacecraft flies and works, attempt to invoke the solar wind [nasa.gov] as an explanation for the observed effects. This assertion should be easy to discredit by calculating the expected pressure of the solar wind on a sail of X area and then comparing that to the actual observed forces acting on the sail but for some people will never believe thier dragon dosen't exist[credit to Carl Sagan]. [qwest.net]
  • Too slow to be of any use.

    The acceleration to get to 100 mph is what ?

    100 years ?

    • Well, if you're travelling to the outer solar system, you better not be in a hurry, no matter what your means of propulsion!
    • If I recall 1N of force requires 1kmx1km of sail. I might be off by an order of magnitude though.
    • by civilizedINTENSITY ( 45686 ) on Saturday July 12, 2003 @05:56PM (#6425344)
      Looks to perhaps accelerate a bit faster [nasa.gov] than you would suggest.
    • Well, there is another very interesting project going on:

      http://www.geophys.washington.edu/Space/SpaceMod el /M2P2/

      You may also call it a solar sail ;)
    • Actually at the earths distance from the sun the power output of the sun per unit area is about
      1400 W/m2. The sail on the COSMOS spacecraft is about 1km2 and the total weight of the thing is about 1kg.

      The force works out to be about 9N, and so the accelaration to 9m/s2. This is slightly less than the acceleration due to gravity.

      If you jump off a bridge you should find that you accelerate to 100mph quite quickly.

  • In fact it is well known that the radiometer blades turn due to the heating of air molecules by the light, causing a differential thrust on the two sides of the blades. Only in a perfect vacuum would light pressure be a significant factor. Gold created a vacuum in a laboratory experiment - but his vacuum wasn't perfect, or even good enough, and he got the wrong answer from his experiment. (The same reason we are insisting that the Cosmos 1 spacecraft fly in a high enough orbit so that air molecules don't in
    • Um - maybe because air molecules are rather scarce where they want to actually use solar sails? The point of the experiment is to test the practice of solar sailing in something approximating the target environment... or were you being sarcastic?
  • by IICV ( 652597 ) on Saturday July 12, 2003 @04:27PM (#6425103)
    All of the things mentioned in this rebuttal were things I had issues with, myself, when I read the first article.

    ... ouch. I just sprained my shoulder patting myself on the back.

  • by MillionthMonkey ( 240664 ) on Saturday July 12, 2003 @04:33PM (#6425121)
    It was obvious from the original story that the guy was wrong. He made fundamental errors that you could spot after a freshman level course in physics 101. The rebuttal doesn't really address the specific flaws in the original paper- it has the character of "ahh this is nonsense" which it is. But the original paper has some obvious conceptual errors:

    But what will be the performance of the mirror as a heat engine? If the mirror receives heat energy from the Sun and converts some of this into free energy, namely the kinetic energy of its motion, it falls into the strict definition of a heat engine, and Carnot's rule defining the maximum efficiency for this energy conversion must apply. We can determine the incoming temperature of the radiation by measuring the temperature an absorbing (black) body would reach when exposed to the radiation being sent to the mirror, and the temperature a black body would reach exposed to the outgoing radiation from the mirror, both measurements carried out in common motion with the mirror. Carnot's rule would then give the maximum efficiency as that fraction of the heat flow trough the mirror, given by the difference of the two temperatures, divided by the input temperature. It would be that fraction of the heat flow that could maximally appear as kinetic energy gained by the mass of the mirror. If this was a perfect mirror, the two temperatures will be the same, and it follows that the mirror cannot act as a heat engine at all: no free energy can be obtained from the light. The proposed solar sail cannot be accelerated by sunlight.

    The two temperatures are NOT the same. They are slightly different. The mirror is not infinitely massive, so in the mirror's own reference frame the photons reflecting from the mirror have a lower energy / longer wavelength after their elastic collision with it- the mirror receives a small bit of momentum from each photon in the collision. And in the sun's frame, the mirror is receding and the reflected photons are doppler shifted. He can't assume that the incident and reflected energy are the same and run off making derivations from that. They are extremely close, but the difference between them is not zero like he assumes.

    Would it be better to place a black sheet there instead of a mirror-faced one? Unlike the mirror, this could absorb energy and the momentum associated with that. But it would do this only from the moment of its exposure until it reached thermal equilibrium with the available radiation. Then energy absorption would cease, and with that the delivery of momentum to the sheet would also cease. For any lightweight sheet, this time would be only seconds.

    Does he even realize the sun is a point source? The sun shines on one side of the sail, not both sides! One side is exposed to radiation with a temperature of 300K. The other side sees only 3K radiation. The sail temperature will rise to some intermediate temperature between 3 and 300K and reach thermal equilibrium with all available radiation. So what? This means nothing for momentum transfer! Once it reaches thermal equilibrium, the sail is receiving X watts of radiation coming from one direction, and radiating X watts thermally in all directions! While the wattages are the same for both, the radiated energy has no overall momentum, while the incoming energy has a very definite momentum. The point isn't to heat the sail, it's to move it. He seems to be confusing the sail's kinetic energy of motion with its internal thermal energy.

    The rebuttal is very sparing. I think it would probably have been more vicious if its author didn't "know Prof. Gold well" and didn't have any reservations about embarrassing him.

    • by efuseekay ( 138418 ) on Saturday July 12, 2003 @05:22PM (#6425261)
      The two temperatures are NOT the same. They are slightly different. The mirror is not infinitely massive, so in the mirror's own reference frame the photons reflecting from the mirror have a lower energy / longer wavelength after their elastic collision with it- the mirror receives a small bit of momentum from each photon in the collision. And in the sun's frame, the mirror is receding and the reflected photons are doppler shifted. He can't assume that the incident and reflected energy are the same and run off making derivations from that. They are extremely close, but the difference between them is not zero like he assumes.

      This is true, but not the reason why the Carnot analogy fails.

      The main point is that the mirror is not receiving "heat energy" (a scalar quantity), but a constant radiation directed radiation pressure ( I hate the term "pressure", because pressure to me seems to be a local scalar quantity but such is jargon.), a directed constant force (i.e. a vector quantity.) So the MIrror is NOT a heat engine. A battle analogy is that the Sun is the engine powering the "mirror".

      The sail temperature will rise to some intermediate temperature between 3 and 300K and reach thermal equilibrium with all available radiation.

      Not 300k. The Sun is approximately a Blackbody at 6000k, so the mirror sees a Planck spectrum of radiation at 6000k in one side, and cosmic microwave 3K on the other. THe rest your explanation is spot on.

      • Actually thinking of the mirror in heat engine
        terms is helpful. There is no reason why we
        shouldn't be able to balance out energy as a
        scalar quantity. In fact writing a Hamiltonian
        for the sail is not that hard and Dr. Gold would
        then easily see his fallacy by solving it.
      • by MillionthMonkey ( 240664 ) on Saturday July 12, 2003 @05:41PM (#6425303)
        so the mirror sees a Planck spectrum of radiation at 6000k in one side

        ...within the solid angle in which the sun appears in its sky on that side. That means the "intermediate temperature" would in fact be 300K as we have found out by experiment (to the approximation that the Earth is a blackbody).

    • Would it be better to place a black sheet there instead of a mirror-faced one? Unlike the mirror, this could absorb energy and the momentum associated with that.

      No it wouldn't be better. If the photon is reflected then the solar sail craft gains twice as much momentum as it would if the photon is absorbed.
    • And in the sun's frame, the mirror is receding and the reflected photons are doppler shifted

      This point was raised in the previous ./ article about solar sails, to explain why light striking a sail loses energy and increases the motion of the sail. My quesion is, isn't the redshift of the sail relative to the sun so small that any photons strinking the mirror would lose only a tiny fraction of their energies? This might mean that a sail would work in principle, but that the accelerations would be so smal
      • Actually the redshift is misleading and completely irrelevant anyway. A sail will work fine with zero redshift.

        The point is that the interaction between the sail and the photons is characteristic of an elastic collision, exchanging momentum, with an associated increase in entropy. It's a trivial and easily understood interaction. There's just no hole here that you can poke a thermodynamic argument into. If some guy wants to convince us that this is a "heat engine" and then derive the fact that it can't wor
        • I disagree with both of your main points:

          Actually the redshift is misleading and completely irrelevant anyway. A sail will work fine with zero redshift. The point is that the interaction between the sail and the photons is characteristic of an elastic collision, exchanging momentum, with an associated increase in entropy.

          If this is an elastic collision, and the sail gains energy, then the photon must lose some energy. Where do you propose this energy comes from? Clearly, the photon's velocity can'

          • If this is an elastic collision, and the sail gains energy, then the photon must lose some energy. Where do you propose this energy comes from?

            The photon's initial energy.

            Clearly, the photon's velocity can't decrease. Hence the redshift.

            That's the redshift from the elastic collision, not the redshift from the mirror's motion relative to the solar system. They are two different redshifts.

            Not true. I'm sure you would not say this had the argument been based on conservation of momemtum, or conservation
    • ... would be to ask him to explain how comet tails form. Doh! I have to admit not even thinking of that when I read Gold's article.
  • by Raul654 ( 453029 ) on Saturday July 12, 2003 @04:37PM (#6425137) Homepage
    I have learned to use the word 'impossible' with the greatest caution.
  • That Gold Guy (Score:3, Offtopic)

    by fm6 ( 162816 ) on Saturday July 12, 2003 @04:51PM (#6425181) Homepage Journal
    Thomas Gold seems to associate himself with rather a lot of weird theories. He was one of those behind the "rocks from Antartica prove there's life on Mars" weirdness. (Yeah, I know it's a popular theory, but it's always struck me as a nasty stretch.) He's got a complicated theory that I won't even begin to describe, concerning subterranean microbes, helium concentrations, and non-biological origins of petroleum.

    And he's got the biggest feature of the crank, a martyr complex:

    I can give you there an example from my own experience where, when I was still very green and naive, just after the war, I had worked on the theory of hearing: how the inner ear works. As I had just come from wartime radar, I was full of signal processing methods and sophistication and receiver techniques and all that, and there I found myself discussion the physiology of hearing in those terms. I thought it was very appropriate because it is a very fine scientific instrument that we were discussing, the inner ear. But I had to address myself to an audience of otologists - the doctors and medical people who deal with hearing - the only ones who were doing any kind of research in this field. The mismatch was obvious; it was completely hopeless. There was no common language, and of course the medical profession just would not learn what it would take to understand the subject. On the other hand, they sure made their judgments about the matter, without having any basis at all.
    (That's from a journal article [amasci.com] he wrote.) Now from a purely scientific point of view, one is inclined to accept that Gold was the victim of medical close mindedness. The notion of "active hearing" does make a lot of sense, and medicos are notoriously rigid with respect to scientific issues. But other physical scientists have managed to bridge this gap: Norbert Weiner comes to mind. In fact, the very theories that Gold was trying to apply to hearing were originated by just that kind of cross-discipline collaboration.

    I have to suspect that Gold likes to play the contrarian just to avoid dealling with his on collaboration issues.

  • by anzha ( 138288 ) on Saturday July 12, 2003 @04:51PM (#6425183) Homepage Journal

    A Rebuttal [google.com] by Geoffery Landis [sff.net].

  • Geek Fight! (Score:3, Funny)

    by Superfreaker ( 581067 ) on Saturday July 12, 2003 @04:52PM (#6425184) Homepage Journal
    Hide their protractors!
    (Or is it their compasses? [compassi?] {I mean the pointy ones with the stabbing..and he eyes....glavin!})

  • of course he's wrong (Score:3, Informative)

    by sstory ( 538486 ) on Saturday July 12, 2003 @04:53PM (#6425187) Homepage
    F=dP/dt. What more do you need.
  • by August_zero ( 654282 ) on Saturday July 12, 2003 @05:15PM (#6425244)
    Sweet!

    My career as a Solar Pirate is looking more promising everyday
    Yarrr!
  • ILLEGAL (Score:3, Funny)

    by Anonymous Coward on Saturday July 12, 2003 @05:21PM (#6425259)
    In this country we follow the laws of THERMODYNAMICS. This type of hacking is ILLEGAL. If you want to hack Solar Sails YOU MUST PURCHASE SAID ENERGY. We are going to see that this website is taken down immediately. We will log IP addresses of anyone who visits this site and we WILL find you and prosecute you to the maximum extent permissible under the LAW.
  • Interesting... (Score:3, Interesting)

    by Realistic_Dragon ( 655151 ) on Saturday July 12, 2003 @05:29PM (#6425274) Homepage
    The rebuttal is pretty interesting, it rests on a fairly simple principle:

    When the photons are travelling towards the sail an observer at the light source will see a red shift (doppler effect at work here).

    When the photons are travelling away from the sail an observer at the light source will see a blue shift.

    Because the observer hasn't changed position the shift can be attributed to a change in energy, which must have gone into the sail (as the only thing the photons encountered, assuming a perfect vaccume) meaning that the increased KE of the sail breaks no laws of physics.
  • by Crashmarik ( 635988 ) on Saturday July 12, 2003 @05:32PM (#6425282)
    He is off his rocker.

    Applying the laws of thermodynamics that govern a heat engine to a sail is just not applicable. You might as well apply Kirchoffs current law to a water balloon.

    This is a straight forward conservation of momentum problem. Give a sail of size A, with reflectivity R and a photon flux F(photons/sec) impinging on the sail with average frequency f you will have have momentum imparted to the sail of M=2*(F*R*h*f)+(1-r)*h*f. h is plancks constant. QED and very straightforward.

    Well I was dissapointed by pons and fleischman, Golds theory about the inorganic, I now see how and why you can have otherwise respectable people make completely foolish statements
  • by earthforce_1 ( 454968 ) <earthforce_1@yaho[ ]om ['o.c' in gap]> on Saturday July 12, 2003 @06:01PM (#6425365) Journal
    a presigious US astronomer, wrote a paper in 1902 in which he concluded:
    "Flight by machines heavier than air," Simon Newcomb declared one day in 1902, "is unpractical and insignificant, if not utterly impossible."

    His arguments were quite reasonable on the surface - Imagine a bird as a model. If you increase the size of the bird, the mass increases proportionally to the third power of its wingspan. But the surface area of the wings only increases proportionally to the square of its wingspan. Thus something much larger than a bird would never be able to fly, and all attempts to build heavier than air flying machines capable of carrying a human would prove futile.

    Fortunately, the Wright brothers never read his paper, or at least never took him seriously.

    About 40 years later it was argued by learned men that manned supersonic flight would never be achievable.

    http://www.garfield.library.upenn.edu/essays/v3p 16 7y1977-78.pdf

    Marconi wasn't formally educated, and he was laughed at for spending vast sums of money to send a radio signal across the Atlantic ocean. Any fool knows that radio waves couldn't penetrate the earth, and was limited to line of sight communication! Yet despite all logic, the damned fool contraption eventually worked. It was only later that they discovered the ionosphere could reflect certain frequencies back to earth.

    Even great men of science make mistakes sometimes.
    • Marconi wasn't formally educated, and he was laughed at for spending vast sums of money to send a radio signal across the Atlantic ocean.

      Sure, they laughed at Marconi and his "crazy" ideas, but they also laughed at Bozo the clown. Sometimes an idiot is simply an idiot.

    • Newcomb's essay had some grounding in observation. He started with the reality that flying animals top out around fifty pounds, and plausibly reasoned that their design quality would be tough to match.

      Newcomb did't foresee lightweight power plants with output in the tens or hundreds of horsepower.

      In other words, at least Newcomb got the physics right.
  • He speaks of the "Temperature of the Photons" is same same, so no thrust because of 2nd law of thermodynamics.

    If I'm right with my thermodynamics knowledge, the temperature of the photons would be their *unordered* move (that is, relative to their mass centre). And this is nearly zero.
  • by Phil Karn ( 14620 ) <karn@@@ka9q...net> on Saturday July 12, 2003 @07:58PM (#6425697) Homepage
    Here's the letter I wrote to the editor of New Scientist when I first heard of Gold's article:

    Tommy Gold and others quoted in the article about solar sails really should consult some real spacecraft engineers. For us, solar radiation pressure is an everyday reality. Solar radiation pressure is a major perturbing force on GPS satellite orbits, for example.

    AMSAT, a group of radio hams that builds its own satellites, has for decades used radiation pressure to impart slow spins to its satellites with "blade turnstile" antennas. Paint one side of each blade black and the other white, and the spacecraft slowly spins like a Crooke radiometer -- but in the opposite direction, away from the white surface.

    A Crooke radiometer is a very different beast. The glass bulb is not evactuated, so thermal heating on the black side of the vanes heats and expands air, pushing the vane away from the black surface. This force overwhelms the much smaller photon pressure, but in the vacuum of space only the radiation pressure exists.

    Gold's thermodynamic argument is silly and wrong. A solar sail is not a heat engine, so the second law doesn't apply. The first law (energy conservation) does apply in a very simple way: the photons reflecting off the sail are red-shifted by the sail's motion, removing energy from the photons and imparting it to the sail by accelerating it.

  • Momentum transfer (Score:3, Informative)

    by dlakelan ( 43245 ) <dlakelan@street- ... g ['s.o' in gap]> on Saturday July 12, 2003 @08:37PM (#6425795) Homepage
    There are 3 sources of momentum transfer as I see it.

    1) Light impinging on the sail and reflecting back towards the sun. The photons have momentum due to relativity.

    2) Photons being absorbed by the sail (increasing its temperature and transferring momentum to the sail)

    2) Photons being radiated in all directions by the sail (radiant heat).

    Conservation of momentum shows that the sail has to accellerate, but he's right that it will start out increasing rapidly, and as it heats up it will slow down its accelleration (because it starts to radiate infra-red on the side away from the sun)

    I think this is the sense in which it is a heat engine.

    The conservation of energy and the fact that the sail accellerates away from the sun does imply red shifts of the reflected photons (ie. reduction in their energy). This doesn't seem to bother me at all. It seems to be what bothers Gold.

  • by paiute ( 550198 ) on Saturday July 12, 2003 @09:56PM (#6426044)
    Didn't we have a big reflective object in high orbit already? Do we not have orbital data from them that tells us if there is a solar wind pressure?

    http://www.centennialofflight.gov/essay/Dictiona ry /Echo/DI55.htm

    Improving on the idea of sending and receiving
    signals from the moon, in 1960, NASA launched a
    balloon satellite that would reflect communications
    signals. Echo I was a balloon made of
    aluminum-coated Mylar that was launched by a
    rocket into space. When it reached orbit 1,000
    miles (1,609 kilometers) above the Earth, it
    inflated from inside a 26.5-inch (67.3-centimeter)
    magnesium sphere to 100 feet (30.48 meters) in
    diameter. Circling the globe every two hours, it
    shone more brightly than the North Star in the
    evening. The balloon captured the imagination of
    people who had watched the first man-made object
    in space, the Russian satellite Sputnik 1, orbit the Earth in 1957.

  • Umm? (Score:3, Informative)

    by Valar ( 167606 ) on Saturday July 12, 2003 @11:07PM (#6426283)
    So the rebuttal says the article was flawed because it was written assuming a perfect mirror, and not assuming a perfect vacuum. While the part about not assuming a perfect mirror is very true and valid, the part about space being a perfect vacuum seems a little suspect. I mean, it might be close, but you have to consider the size that a solar sail would be. Especially if operating in a cloud of interstellar dust, etc. friction would be noticable.
  • To sum up... (Score:4, Informative)

    by ZanshinWedge ( 193324 ) on Sunday July 13, 2003 @01:11AM (#6426730)
    Let me sum up quickly.

    1) Photons bouncing off a mirror will impart momentum to the mirror. That's Newton's laws right there, as fundamentally a part of the fabric of the nature of reality as we know it as damned near anything else we have ever studied. If Gold were right and a Solar Sail wouldn't work, then it would mean Newton's 3rd law would be violated, and that's super bad mojo, mojo of a scale that Gold was unable to back up with sufficient evidence and argumentation in his penny-ante paper.

    2) The laws of thermodynamics are not violated by the operation of Solar Sails. In any given inertial reference frame the reflected photons will be "red shifted" and have a slightly lower energy. This is how energy is conserved (since the movement of the sail represents work, and thus energy). This is also how the 2nd law of thermodynamics (non-decreasing entropy) is followed, since the redshifted photons are higher in entropy (for slightly complicated reasons) and balance the work done.

    3) Light pressure is not theoretical, it has been detected, measured, and, indeed, used many times in many circumstances. Its properties have corresponded very closely (to about as many 9s as you'd like) to what has been theorized.

    In short, Gold is full of crap and the New Scientist ought to be ashamed at printing his stupidity.
  • by FuzzyDaddy ( 584528 ) on Sunday July 13, 2003 @07:17AM (#6427519) Journal
    Gold's arguments were clearly wrong, mostly due to his loose arguments of what the temperatures of the various systems were. For example, he claimed the temperature of the sunlight should be the same as the average temperature of a body at that distance from the sun, where it would clearly be the temperature of the surface of the sun. Otherwise, you wouldn't be able to focus sunlight to burn paper.

    Freedman's rebuttal says that Gold is wrong to argue from a thermodynamic point of view, and that he ignores quantum mechanics. However, all the laws of physics must be consistent with each other. This consistency is what makes these intellectual arguments so interesting. For example, by insisting that electrodynamics was consistent with mechanics, Einstein developed special relativity.

    Gold's arguments are simply wrong, but this incorrect rebuttal is not really that good. When debating with crackpots, it's important to be meticulous in your arguments, because they will seize upon any small error and attempt to make that the focus of the debate, not their own large, glaring errors.

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