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Return-path: <ota+space.mail-errors@andrew.cmu.edu> X-Andrew-Authenticated-as: 0;andrew.cmu.edu;Network-Mail Received: from po3.andrew.cmu.edu via trymail for +dist+/afs/andrew.cmu.edu/usr1/ota/space/space.dl@andrew.cmu.edu (->+dist+/afs/andrew.cmu.edu/usr1/ota/space/space.dl) (->ota+space.digests) ID </afs/andrew.cmu.edu/usr1/ota/Mailbox/po3.andrew.cmu.edu.2049.0.0>; Wed, 3 Aug 88 09:24:49 -0400 (EDT) Received: from po3.andrew.cmu.edu via qmail ID </afs/andrew.cmu.edu/service/mailqs/q003/QF.po3.andrew.cmu.edu.22f713bb.6427ff>; Wed, 3 Aug 88 09:23:11 -0400 (EDT) Received: from po2.andrew.cmu.edu via qmail ID </afs/andrew.cmu.edu/service/mailqs/sq1/QF.po2.andrew.cmu.edu.22f6c9a8.85212a>; Wed, 3 Aug 88 04:07:17 -0400 (EDT) Received: from andrew.cmu.edu via qmail ID </afs/andrew.cmu.edu/service/mailqs/q007/QF.andrew.cmu.edu.22f6c95f.bd2186>; Wed, 3 Aug 88 04:05:59 -0400 (EDT) Received: by andrew.cmu.edu (5.54/3.15) id <AA00364> for +dist+/afs/andrew.cmu.edu/usr1/ota/space/space.dl; Wed, 3 Aug 88 04:05:08 EDT Received: by angband.s1.gov id AA00455; Wed, 3 Aug 88 01:04:44 PDT id AA00455; Wed, 3 Aug 88 01:04:44 PDT Date: Wed, 3 Aug 88 01:04:44 PDT From: Ted Anderson <ota@angband.s1.gov> Message-Id: <8808030804.AA00455@angband.s1.gov> To: Space@angband.s1.gov Reply-To: Space@angband.s1.gov Subject: SPACE Digest V8 #312 SPACE Digest Volume 8 : Issue 312 Today's Topics: Time skew -- does it hurt SETI? Re: Solar Sails Re: Shuttle-C details Re: Shuttle-C details Re: space news from June 6 AW&ST Re: space news from May 30 AW&ST Doppler lidar, ESA publications(was: NASA news - Seasat) We will bury you Re: Time skew -- does it hurt SETI? Re: Solar Sails ---------------------------------------------------------------------- Date: 26 Jul 88 00:25:55 GMT From: amanda!msodos@sun.com (Martin Sodos) Subject: Time skew -- does it hurt SETI? I'd like to put forward an idea for public consideration/debate. Forgive me if its already been addressed, but I have been exceedingly curious about it for some time. Consider the following: Carl Sagan (sp?) in his cosmic calendar shows that all of recent recorded history represents only the last few seconds before midnight, a mere instantaneous flicker compared to the events that have preceeded it during the cosmic 'year'. Consider further that science has in recent years taken on an exponential learning curve. For example, electricity was only 'discovered' (as in defined and put to useful purpose as opposed to merely observed in nature) within the last few hundred years, radio within the last hundred, relativity, nuclear power and space travel within this century. The true nature of superconductivity, perhaps yet to come. Practical human spacetravel outside the boundarys of even our own solar system still only an unrealized dream. Now, consider that even if there exists a race somewhere relatively closeby in the universe so that radio is a practical means of communication, and if this race has developed in a very similar manner to our own, if they are a mere 1% behind us on the cosmic calendar they will not even yet have evolved on their planet. For example, if the age of our Earth is 4 billion years, 1% of 4 billion is 40 million. longer than man has existed on this planet(by most estimates). So, let's be generous. Let's say there is some operative factor of parallel evolution which would align the development of the two cultures (theirs and ours) to within .0001%. Even to this, I dare say ridiculous, level of parallelism, they are only within +/- 4000 years of us. If they are behind us they are somewhat before the time of their equivalent of the Greeks, and there is no hope of communication. If they are ahead of us, they are probably so advanced as to be almost unrecognizable. Bear in mind what has happened scientifically in only the last 100 years. However, for those who would argue this, I contend that the point is moot by the very absurdity of the tolerance specified. Ergo, I put forward for your consideration that even if life such as ours is fairly common on the universe, that the time alignment problem would make it extremely unlikely that we would/will ever encounter it. And of course, that further assumes that the culture in question (the one relatively aligned to ours), is also the one which is reasonably nearby. I contend that if you add the 'time skew' factor to those formulae which portend to predict the probability of life like our own elsewhere in the universe you get a liklihood near zero that we will ever encounter it. What say you all? sun!amanda!msodos ------------------------------ Date: 23 Jul 88 09:22:38 GMT From: unisoft!gethen!abostick@ucbvax.berkeley.edu (Alan Bostick) Subject: Re: Solar Sails In article <10922@oberon.USC.EDU> robiner@ganelon.usc.edu (Steve) writes: >If the light bounces off the sail, how does it impart momentum. What >energy of the photon is now reduced? I think the photons must be >ABSORBED by the sail for this to work. Well, you're wrong. Consider a mirror initially in free fall. Let us work in the reference frame where the mirror is at rest. The mirror has a mass of m, and in this frame it has a kinetic energy of zero. A photon is traveling to the right with momentum p and energy E = c*p, where c is the speed of light. The photon bounces off of the mirror and is reflected in accordance with the laws of reflection. Now it is traveling to the left with momentum -p' and energy E' = c*p'. The momentum of the photon has changed, so in order for momentum to be conserved the momentum of the mirror must change as well. The mirror's momentum is now p" and its kinetic energy is now E" = (p"**2)/(2*m). The total final momentum must equal the total initial momentum: p" - p' = p; and the total final energy must equal the total initial energy: E' + E" = E. If we take our energy equation and make the appropriate substitutions, we have: c*p' + (p"**2)/(2*m) = c*p Now make the substitution p' = p" - p (a rearrangement of the momentum equation), and solve for p". We then have p" = m*c*((1 + (4*p)/(m*c))**0.5 - 1) . When p << mc (and we are talking about a single photon here, so it almost certainly does,) this is closely approximated by p" = 2*p - 0.5*((p/(m*c))**2) . This is the momentum of the mirror after the reflection. We substitute this into our momentum equation to find that p' = p - 0.5*((p/(m*c))**2) . We see that the photon has a little less momentum, and hence a little less energy than before. This energy lost by the photon has gone into kinetic energy of the now moving mirror. Energy is conserved, momentum is conserved, and the mirror is now moving, due to the kick of the light. No absorption is necessary. Next time, think for a minute before shooting off your mouth. This is freshman physics. This is freshman physics for liberal arts majors. Alan Bostick ucbvax!unisoft!gethen!abostick ------------------------------ Date: 25 Jul 88 10:55:28 GMT From: b.gp.cs.cmu.edu!Ralf.Brown%B.GP.CS.CMU.EDU@pt.cs.cmu.edu Subject: Re: Shuttle-C details In article <1012@cfa200.cfa250.harvard.edu>, willner@cfa250.harvard.edu (Steve Willner P-316 x57123) writes: }[Shuttle-C] Development cost would be up to $1.5 billion. Current definition }studies are to run through 1989. $1.5 billion to develop a launcher from mostly off-the-shelf parts!?!?!?! Multi-year definition studies?!?!?! Sounds like more gold-plating to me.... -- UUCP: {ucbvax,harvard}!cs.cmu.edu!ralf -=-=-=- Voice: (412) 268-3053 (school) ARPA: ralf@cs.cmu.edu BIT: ralf%cs.cmu.edu@CMUCCVMA FIDO: Ralf Brown 1:129/31 Disclaimer? I |Ducharm's Axiom: If you view your problem closely enough claimed something?| you will recognize yourself as part of the problem. ------------------------------ Date: 26 Jul 88 13:34:44 GMT From: dietz@cu-arpa.cs.cornell.edu (Paul F. Dietz) Subject: Re: Shuttle-C details The interesting thing about the Shuttle-C, as proposed, is that you can launch it only once for every 6.7 shuttle flights (for the two engine version) or every 10 flights (for the 3 engine version). So, after the current stock of used engines is exhausted, shuttle-C will have the capability of lifting maybe 1/3 the mass the shuttle fleet can. Excuse me if I don't cheer. Paul F. Dietz dietz@gvax.cs.cornell.edu ------------------------------ Date: 25 Jul 88 22:01:07 GMT From: thumper!karn@faline.bellcore.com (Phil R. Karn) Subject: Re: space news from June 6 AW&ST > ... So far the station has survived, at the > expense of major cuts to CSTI, Pathfinder, NASA expendables, and the > Commercially Developed Space Facility. [Those are lousy places for cuts.] *Now* you see why the Space Station isn't such a good idea. If it competed solely with, say, SDI for funding I'd be 110% for it. But it instead competes, rightly or wrongly, mostly with other NASA projects, and with the possible exception of the Shuttle they are all far more cost-effective than the Space Station. > Soviet Academy of Sciences and the Federation of American Scientists > jointly propose a ban on nuclear reactors in Earth orbit. This would > hamper SDI and shut down the Soviet nuclear radarsats. Agreed. We really need some enlightened self-interest on both sides. An excellent start would be the following: 1. Ban the use of nuclear power sources in low earth orbit, "low" being defined as anything with a lifetime less than a thousand years or so. Deep space missions would be fine. 2. Ban any mission that involves the explosion of a warhead in orbit or the deliberate collision of objects unless the expected lifetime of the resulting fragments is less than a year. These two provisions would have the following highly beneficial effects: 1. The seemingly regular series of Soviet nuclear-powered radarsats re-entering the atmosphere would stop. 2. The increasing pollution of orbital space by ASAT and SDI tests would stop. 3. Taken together, the two provisions would effectively prohibit many, if not most, nuclear powered SDI tests. We urgently needed the Limited Test Ban Treaty in 1963, and we urgently need a treaty like this now. Phil ------------------------------ Date: 25 Jul 88 22:50:12 GMT From: sdcc6!calmasd!jnp@ucsd.edu (John Pantone) Subject: Re: space news from May 30 AW&ST Henry Spencer writes: ...much valuable info deleted... Reagan will propose that the two countries study cooperation in solar-system exploration. He will refrain from endorsing missions involving extensive hardware cooperation (e.g. Apollo-Soyuz), major manned projects, or specific unmanned Mars missions. [Has it occurred to any of the brain-damaged bozos who put together this wonderful list of non-promises that maybe the Soviets are tired of studying the notion endlessly and would like to *do* something?!?] Henry - I'm not really arguing about the "brain-damage" nor even the "bozo" nor even the "non-promises". I am, however, not too thrilled to see an editorial comment which seems to imply that just because the Soviets may (or may not) be getting tired of our "studies" that we should fall through our a__holes trying to please them, or get something done to satisfy or placate them. These are the same people that in the Sputnik era (not that long ago to me, anyway) promised (not threatened, mind you, *promised*) to bury us. A couple of "kind words" and a leader in decent tailoring (for a change) hardly eradicates decades of threatening behavior. I personally think that cooperation is far more desirable than continued competition - but not without a great deal of deliberation - and due consideration. If the Soviets have to stew in their juices a while - so be it - tough luck. Gorbachev represents, PERHAPS, a new era - we'll just have to wait and see. -- These opinions are solely mine and in no way reflect those of my employer. John M. Pantone @ GE/Calma R&D, 9805 Scranton Rd., San Diego, CA 92121 ...{ucbvax|decvax}!sdcsvax!calmasd!jnp jnp@calmasd.GE.COM GEnie: J.PANTONE ------------------------------ Date: Tue, 26 Jul 88 14:00 CDT From: Bill Higgins-- Beam Jockey <HIGGINS%FNAL.BITNET@cunyvm.cuny.edu> Subject: Doppler lidar, ESA publications(was: NASA news - Seasat) Original_To: SPACE All the discussion of Seasat, oceanography, and radar reminds me of an article (going slightly off on a tangent) in the current *ESA Journal* (Volume 11 Number 4/volume 12 Number 1 [hey, that's what it says on the contents page. Must be a Spectacular Double Issue or something.], pages 19-36: "Spaceborne Doppler Wind Lidars," by G. Salvetti of ESTEC. The object is to shine a laser down, observe scattered light off dust particles and aerosols, and measure the Doppler shift. Do this from two angles (two spots in the satellite's orbit) for the same location on the surface, and you have enough velocity information to get the two-dimensional wind pattern. Time delay of the laser pulse gives you depth. This could be a great boon to the weather guys, especially in the Southern Hemisphere where surface measurements are sparse. Problems: Laser needs lots of power, but beam density is limited by eye-safety requirements. Space-qualified lasers and detectors are needed. Data rates are very high (you probably need on-board processing). You have to take Doppler shift due to spacecraft motion and Doppler broadening due to molecular motion and wind shear out of a very feeble signal in order to get the numbers you want. Coherent detection of the signal would be nice and sensitive, but may be too tricky to achieve in a flyable system. Still under development-- but a rather nice technique, don't you think? I might as well reveal a secret I've been sitting on for quite a while: The European Space Agency's magazines are FREE. *ESA Journal* is for technical papers, *ESA Bulletin* is more general-- if still pretty technical-- and includes regular status reports on every ESA program, as well as articles. Both are quarterly. Write to: ESA Publications Division ESTEC 2200 AG Noordwijk The Netherlands And by all means, get your library to subscribe!! The ESA Publications Division can also give you information on buying copies of ESA's technical reports and books, which flow in great quantity from the European space program. And there are a couple of other free publications. ______meson Bill Higgins _-~ ____________-~______neutrino Fermi National Accelerator Laboratory - - ~-_ / \ ~----- proton Bitnet: HIGGINS@FNALB.BITNET | | \ / SPAN/Hepnet/Physnet: 43011::HIGGINS - - ~ ------------------------------ Date: 26 Jul 88 19:05:09 GMT From: agate!garnet!weemba@ucbvax.berkeley.edu (Obnoxious Math Grad Student) Subject: We will bury you >These are the same people that in the Sputnik era (not that long ago to >me, anyway) promised (not threatened, mind you, *promised*) to bury us. Like or dislike the Soviets as you think proper, but don't keep citing this famous line incorrectly. "We will bury you" is Russian idiom that meant nothing more than the trivial assertion "we will live longer than you". "Bury" here has the sense of "be in attendance at your funeral", and not the "go out of our way to put you six feet under" interpretation. And in case you think the sentence is possibly ambiguous, it most certain- ly wasn't so in context. Funny how Krushchev's full speech with this line is so rarely printed--it was just simple Marxism about how the capitalist system is going to self-destruct, the socialist system is going to endure, and all that rot. ucbvax!garnet!weemba Matthew P Wiener/Brahms Gang/Berkeley CA 94720 ------------------------------ Date: 26 Jul 88 13:57:28 GMT From: rochester!rocksanne!entire!elt@rutgers.edu (Edward L. Taychert) Subject: Re: Time skew -- does it hurt SETI? My astrophysics text discusses extraterrestrial communications based most likely on radio. Different probabilites of contact are plotted against the population density of the universe on one axis and the lifetime of a sufficiently advanced culture on the other. Most depressing was the notion that we advance sufficiently to call out, then kill ourselves off. The reply falls on a dead world :-( Even optimistically, communications (a message and reply) are likely to take tens of thousands of years. We may hear a beacon in the night, or we may be heard on a distant world, but the odds of a dialog don't look good. -- ____________________________________________________________________________ Ed Taychert Phone: USA (716) 381-7500 Entire Inc. UUCP: rochester!rocksanne!entire!elt 445 E. Commercial Street East Rochester, N.Y. 14445 _____________________________________________________________________________ ------------------------------ Date: 26 Jul 88 18:45:53 GMT From: grasp.cis.upenn.edu!ulrich@super.upenn.edu (Nathan Ulrich) Subject: Re: Solar Sails In article <1111@gethen.UUCP> abostick@gethen.UUCP (Alan Bostick) writes: >In article <10922@oberon.USC.EDU> robiner@ganelon.usc.edu (Steve) writes: >>If the light bounces off the sail, how does it impart momentum. What >>energy of the photon is now reduced? I think the photons must be >>ABSORBED by the sail for this to work. > >Well, you're wrong. > >Next time, think for a minute before shooting off your mouth. This is >freshman physics. This is freshman physics for liberal arts majors. > I think your reply is rather pompous and insulting. I did not read the original posting, but it appeared to be asking a good question, which you did not answer. Why isn't absorption most efficient for a photon sail? Relativistic physics has some interesting quirks; one of the them is the characterization of photons. They are generally considered to have momentum but not mass, and always travel at the speed of light (c). It has been experimentally determined that photons can exert pressure, and the momentum of photons at various wavelengths has been measured. However, the theory of relativity does not allow for objects with mass to travel at the speed of light, therefore photons are massless. We do know that E = hn, where E is the energy of the photon, h is Planck's constant, and n is the frequency of the photon. In a collision with a mirror, a photon will transfer some of its momentum and its energy to the mirror. The new energy E' = hn' is less than the original energy E, therefore the new frequency n' is less than the original frequency n. The result? Light reflected from a mirror changes color. If we want to build the most efficient sail possible, then we need to do two things: maximize the kinetic energy gain per photon collision, and maximize the number of photons hitting the sail. We can handle the second by making the biggest sail possible. The first is a little more interesting. It would seem intuitively that the best sail material would absorb all the photons hitting it, because then all the energy of the photons would be transferred to the sail. Unfortunately, when the speed of a photon falls below the speed of light--like when it is absorbed by the sail--it is no longer a photon, and its energy is transferred to some other form: electricity via photoelectric cells, heat via black clothing, etc. It turns out that the energy of a photon will not be converted into the kinetic energy of the sail, but into one of these other forms. The way to gain kinetic energy from photons is to reflect them as efficiently as possible--the energy transfer results in an increase in the kinetic energy of the sail, rather than to heating it up. In practice, you need a very big, very light, very reflective sail. Nathan Ulrich ulrich@grasp.cis.upenn.edu ------------------------------ End of SPACE Digest V8 #312 *******************