Date: Sat, 21 Nov 92 05:03:01 From: Space Digest maintainer Reply-To: Space-request@isu.isunet.edu Subject: Space Digest V15 #444 To: Space Digest Readers Precedence: bulk Space Digest Sat, 21 Nov 92 Volume 15 : Issue 444 Today's Topics: ACTS Conference proceedings Clinton's address (was Re: Feynmann's legacy) COSTAR Magellan Update - 11/20/92 Mars Observer Update - 11/20/92 ROTATION OF THE MOON (2 msgs) shuttle computers Shuttle replacement (2 msgs) Solar Sailing space news from Oct 23 Science (not AW&ST) Space suit research? (4 msgs) SSTO viability Welcome to the Space Digest!! Please send your messages to "space@isu.isunet.edu", and (un)subscription requests of the form "Subscribe Space " to one of these addresses: listserv@uga (BITNET), rice::boyle (SPAN/NSInet), utadnx::utspan::rice::boyle (THENET), or space-REQUEST@isu.isunet.edu (Internet). ---------------------------------------------------------------------- Date: Fri, 20 Nov 1992 18:46:40 GMT From: Gary Hughes - VMS Development Subject: ACTS Conference proceedings Newsgroups: sci.space Do any of the NASA folks on the net know if there are proceedings and/or 'handouts' from the ACTS conference (Nov 18-19 I think) available and, if so, who to contact? tia gary ------------------------------ Date: 21 Nov 1992 00:27:44 GMT From: Jeffrey Alan Foust Subject: Clinton's address (was Re: Feynmann's legacy) Newsgroups: sci.space In article <1992Nov19.112836.1@max.u.washington.edu> games@max.u.washington.edu writes: >In article <1ee80gINNap@gap.caltech.edu>, jafoust@cco.caltech.edu (Jeffrey Alan Foust) writes: >>The Clinton/Gore campaign did have an account on CompuServe (I don't remember >>the account number). I had heard some talk after the election that they >>would keep the account, but I haven't heard a final decision yet. >> >> -- >Well, I tried to mail to that account, and got the message returned saying >that the mailbox was full. It seems that even though the store is there, >noone is minding it. I recall now someone on one of the alt.politics.* groups mentioning that the Clinton campaign, er, transition team would not be reading the mail sent to it very often, if at all, for the first few weeks after the election, until they decided whether or not to keep the account. Of course, I ran into the problem of mail bouncing during the summer, when I had to resend a mail message to the campaign several times before it didn't bounce back due to a full mailbox! -- Jeff Foust Senior, Geophysics/Planetary Science, Caltech jafoust@cco.caltech.edu jeff@scn1.jpl.nasa.gov Tom Seaver: "Hey, Yogi, what time is it?" Yogi Berra: "You mean now?" ------------------------------ Date: Fri, 20 Nov 92 23:23:37 EST From: John Roberts Subject: COSTAR -From: roelle@uars_mag.jhuapl.edu (Curtis Roelle) -Subject: Re: COSTAR -Date: 19 Nov 92 21:58:23 GMT -Organization: Johns Hopkins University -roberts@cmr.ncsl.nist.gov (John Roberts) writes: ->Somewhat more plausible scenario - the mirrors only partially deploy, ->blocking the original light paths, but not implementing the new light paths, ->and efforts to retract them fail. (I presume they'll try to deploy while ->HST is still attached to the Shuttle - if all else fails, a couple of burly ->astronauts can try to yank the whole assembly out of HST.) -What if they're not burly enough? Is there a contingency plan to retrieve -HST from orbit if all fails, or, would it be jettisoned, even if that meant -leaving it in a non-usable configuration? I believe it would take a special cradle to carry HST, which may well take up the entire cargo bay. Since several bulky new parts have to be brought along, there probably wouldn't be room. Even if COSTAR somehow screwed up all the axial instruments, HST wouldn't be useless - WF/PC II and the fine guidance sensors wouldn't be affected. I attended the HST lecture on Thursday (I'll try to post some notes soon), and saw photographs and detailed diagrams of COSTAR. The mirror assembly is much smaller than I had pictured, so if it did get stuck, I imagine it wouldn't be too hard to yank out. If that didn't work, it might be possible for the astronauts to remove one or more of the other three axial instruments to provide a direct access to the assembly. In any event, the COSTAR extensions are designed to be retractable. By the way, the mirror arms are very precise pieces of machinery, designed to move the mirrors into exactly the right position, but they each have many degrees of freedom, to allow for adjustments if necessary. Isn't COSTAR on the JHU campus (or at least pictures of it)? Would it be possible for you to go take a look and report? John Roberts roberts@cmr.ncsl.nist.gov ------------------------------ Date: Sat, 21 Nov 1992 07:26:54 GMT From: Ron Baalke Subject: Magellan Update - 11/20/92 Newsgroups: sci.space,sci.astro,alt.sci.planetary Forwarded from the Magellan Project MAGELLAN STATUS REPORT November 20, 1992 1. Magellan continues to operate normally, performing a starcal (star calibration) and desat (desaturation of the reaction wheels) on each orbit and transmitting a carrier plus 40 bps X-band signal. 2. The spacecraft has completed 6136 orbits of Venus; 500 so far in Cycle 4, which will end on May 25, 1993. 3. Tuesday, November 17, the project conducted a design review of an aerobraking experiment to be conducted at the end of Cycle 4. Preliminary modeling of dynamic pressures, temperatures and attitude control indicate that circularizing the orbit on an aerobraking plan which proceeds aggressively for the first several weeks, and backs off in the later stages, appears to be very feasible. 4. A Spacecraft Team Technical Interchange Meeting (TIM) was held on Thursday. The spacecraft performance has been excellent since the last TIM although there have been 12 TWTA (Traveling Wave Tube Ampilfier) SSOs (Spurious Shutoffs), including five on Tuesday, and there has been some increase in the slippage of the Solar Array Drive Mechanism since the end of the apoapsis occultation season. ___ _____ ___ /_ /| /____/ \ /_ /| Ron Baalke | baalke@kelvin.jpl.nasa.gov | | | | __ \ /| | | | Jet Propulsion Lab | ___| | | | |__) |/ | | |__ M/S 525-3684 Telos | Learn to recognize the /___| | | | ___/ | |/__ /| Pasadena, CA 91109 | inconsequential, then |_____|/ |_|/ |_____|/ | ignore it. ------------------------------ Date: Sat, 21 Nov 1992 07:29:39 GMT From: Ron Baalke Subject: Mars Observer Update - 11/20/92 Newsgroups: sci.space,sci.astro,alt.sci.planetary Forwarded from: PUBLIC INFORMATION OFFICE JET PROPULSION LABORATORY CALIFORNIA INSTITUTE OF TECHNOLOGY NATIONAL AERONAUTICS AND SPACE ADMINISTRATION PASADENA, CALIF. 91109. TELEPHONE (818) 354-5011 MARS OBSERVER MISSION STATUS November 20, 1992 All spacecraft subsystems are performing well. A new flight sequence, primarily dedicated to radio science activities, began on Nov. 17 and will continue through Dec. 14. Checkout of the Thermal Emission Spectrometer and completion of the Laser Altimeter checkout were performed last week. The Mars Observer Camera "bakeout" to prepare the instrument for operation continues through Dec. 28. The second trajectory correction maneuver (TCM-2) has been rescheduled for Feb. 8, 1993, to allow engineers time to upgrade on-board flight software. TCM-3 has also been rescheduled for March 8, 1993. Until now, the spacecraft's solar panels have been oriented at a 60-degree sun incidence angle to prevent excess power caused by the solar array's direct exposure to the sun. A star- ephemiris table was uploaded on Nov. 17, decreasing the sun incidence angle by 5 degrees. These periodic changes will occur about once a week through Jan. 2, 1993, and will cause the spacecraft's high-gain antenna to point directly at Earth. Today the spacecraft is about 16 million kilometers (10 million miles) from Earth, traveling at a speed of about 14,500 kilometers per hour (9,000 miles per hour) relative to Earth. The spacecraft is traveling at a heliocentric velocity of about 111,500 kilometers per hour (70,000 miles per hour). ##### ___ _____ ___ /_ /| /____/ \ /_ /| Ron Baalke | baalke@kelvin.jpl.nasa.gov | | | | __ \ /| | | | Jet Propulsion Lab | ___| | | | |__) |/ | | |__ M/S 525-3684 Telos | Learn to recognize the /___| | | | ___/ | |/__ /| Pasadena, CA 91109 | inconsequential, then |_____|/ |_|/ |_____|/ | ignore it. ------------------------------ Date: Fri, 20 Nov 1992 21:28:52 GMT From: Josh 'K' Hopkins Subject: ROTATION OF THE MOON Newsgroups: sci.space labmas@stein.u.washington.edu (Michael Andersson) writes: >In article <1992Nov19.144441.5498@col.hp.com> dag@col.hp.com (David Geiser) writes: >>> The same thing is happening, much more slowly, to the earth -- >>> friction with the tides and within the "solid" earth is slowing the >>> rotation rate by something on the order of 1 sec every century. We can >>> actually measure it (the slowdown) nowadays. Love those atomic clocks! >> >>Do you know if that rate is constant? Say around 63M years ago, >>around the time of the end of the dinosaurs, the day would have >>been 175 hrs longer! >No. If the rotation is slowing, then days used to be shorter. Right, so the rate obviously isn't constant or the Earth would have been spinning at relativistic speeds shortly before our astraulopithic ancestors appeared. Since the rates depends on tides and gravitational fields it's very likely that there are exponential terms in the equation. If I recall correctly, you have cubics in the formula for tidal forces, which results in a much different curve than trying to plot it linearly. -- Josh Hopkins jbh55289@uxa.cso.uiuc.edu "Why put off 'til tomorrow what you're never going to do anyway?" ------------------------------ Date: 20 Nov 1992 23:21:33 GMT From: "David M. Palmer" Subject: ROTATION OF THE MOON Newsgroups: sci.space jbh55289@uxa.cso.uiuc.edu (Josh 'K' Hopkins) writes: >labmas@stein.u.washington.edu (Michael Andersson) writes: >>>Do you know if that rate is constant? Say around 63M years ago, >>>around the time of the end of the dinosaurs, the day would have >>>been 175 hrs longer! >>No. If the rotation is slowing, then days used to be shorter. >Right, so the rate obviously isn't constant or the Earth would have been >spinning at relativistic speeds shortly before our astraulopithic ancestors >appeared. Since the rates depends on tides and gravitational fields it's very >likely that there are exponential terms in the equation. If I recall correctly, >you have cubics in the formula for tidal forces, which results in a much >different curve than trying to plot it linearly. I have heard (potential Urban Legend warning) that one of the ocean basins (Pacific? Atlantic?) has a slosh frequency which is resonant with the tides, which greatly increases the tidal drag. In the past, the continents were at different positions, so the oceans had different frequencies, so the tidal drag was much less. eno -- David Palmer palmer@alumni.caltech.edu ------------------------------ Date: Fri, 20 Nov 92 20:42:27 GMT From: Ross Borden Subject: shuttle computers Newsgroups: sci.space >In article roberts@cmr.ncsl.nist.gov (John Roberts) writes: >>Is it at all possible to reprogram the GPCs from the ground, or does it >>have to be done from onboard? > >They are routinely reloaded with different software from onboard storage >(tape, I think), but I don't think there is any remote-upload capability. >In an emergency, the astronauts can input patches manually -- NASA insisted >on this capability, over IBM's objections (the IBM folks say they considered >having the patch routine pop up a little flag saying "your warranty is void" >when it was used :-)) -- but that's not suitable for routine use. >-- >MS-DOS is the OS/360 of the 1980s. | Henry Spencer @ U of Toronto Zoology > -Hal W. Hardenbergh (1985)| henry@zoo.toronto.edu utzoo!henry > >------------------------------ Do the GPC's have hard drives? If so, how do they guard against shock, vibration, etc? _______________________________________________________________________________ | .sig? I don't need no stinking .sig! | | rborden@ra.uvic.ca | ------------------------------------------------------------------------------- ------------------------------ Date: Fri, 20 Nov 1992 20:10:23 GMT From: Steven Bellovin Subject: Shuttle replacement Newsgroups: sci.space.shuttle,sci.space In article <1992Nov20.155202.16554@murdoch.acc.Virginia.EDU>, rbw3q@rayleigh.mech.Virginia.EDU (Brad Whitehurst) writes: > If you are using well tested current technology, why should > the gov't. pay for any of the craft? > .... > But if your claim to fame is that you can do all the transportation > using current technology and are not pushing the envelope, then > convince private concerns that they'll turn a profit, and invest in it > themselves. If GD, McD, Boeing and the rest really wanted to, they > could put enough heat on NASA to convince NASA to leave the "space > truck" market altogether. The question is whether or not there's enough profit to recoup that kind of up-front development. In the space market, I sincerely doubt it, unless the launch rate goes *way* up (see below). Even designing new jetliners is dicey these days; Boeing and McDonald-Douglas have brought in outside partners for their newest planes to cut their costs and risks. They've got to sell *hundreds* of planes to make a profit on their total expenses including development. As for the launch rate going up -- not any time soon, because of a feedback loop. Because launches are so expensive, folks design complex, gold-plated, neutronium-armored satellites. That, of course, means they can't build very many of them. If launches were suddenly cheaper, folks could build different satellites -- but until they do, there won't be enough launches to achieve much economy of scale. (Btw, to see what I mean, contrast the (ex-)Soviet spy satellite philosophy with the U.S.'s.) ------------------------------ Date: 20 Nov 1992 18:23 CST From: wingo%cspara.decnet@Fedex.Msfc.Nasa.Gov Subject: Shuttle replacement Newsgroups: sci.space.shuttle,sci.space In article <1992Nov19.144842.23088@iti.org>, aws@iti.org (Allen W. Sherzer) writes... >In article henry@zoo.toronto.edu (Henry Spencer) writes: > >>>The US shouldn't be putting it's money into the design of ANY expendable >>>launcher. We have done that for too long and it's hasn't reduced launch >>>costs by a dime. > >>Actually, this isn't a very sound argument.... [Henry goes on to say >>that it hasn't been tried and examples from China and Russia show it >>CAN be a lot cheaper] > >Allow me to rephrase: NASA has shown that it cannot execute large multi-year >multi-billion $$ projects in a cost effective manner. Some blame for this >goes to Congress, and some to NASA. Asking them to do it again will simply >waste more money and delay the creation of a spacefaring civilization. > No Allan, what has been shown is that when you micromanage a program and or cut the budget below the request and or stretch the program to "save money" Nasa nor anyone else for that matter can complete a job in a cost effective manner. There are many NASA programs that have been completed on time and under budget WHEN that whole budget has been provided AND no recissions or redesigns or other crap has been foisted on the program. >I don't doubt that much cheaper expendables CAN be build (Zenith Star >launchers for example cut costs in half). I simply don't believe that the US >government can build them. > The baby saturn can do the same thing. Funny thing is that the NLS 1 design ended up in the single engine configuration that we propose for the Baby Saturn. Oh by the way I have confirmed the existence of at least 8 well preserved Saturn F1 engines at the Marshall Space Flight center. They are doing some work on them. However it looks like the cost of refurbing the F1 test stand is a bit high to implement right now. By the way Henry, I found out some interesting stuff there are three versions of the Saturn V first Stage. These are as follows S1C-T Test Stage for Manufacturing and Ground firings This is the one at the Alabama Space & Rocket Center S1C-D Dynamic Test model. Was later scrapped at the end of the program. S1C-1,2,3.... Flight Saturn S1 C stages. ------------------------------ Date: 20 Nov 1992 12:59 PST From: SCOTT I CHASE Subject: Solar Sailing Newsgroups: sci.space In article , n4hy@wahoo.UUCP (Bob McGwier) writes... > >I have a local high school student asking me for information on Solar >sailing. I have programs that will allow him to manipulate the sail >if I knew how to calculate `thrusts' etc. from the photon pressure. >Any details you care to send, primarily references, that will allow me >to help this very bright student, I would appreciate it. > >Please use EMAIL. I will summarize replies that contain useful information. I tried to E-mail, and failed. Here's some incomplete information which might be useful. It's fairly straightforward to calculate the force on your sail from solar radiation pressure. Here's a back-of-the-envelope calculation which ignores some details. Consider an individual photon hitting your sail. It has total momentum p = h*lambda, where h is planck's constant and lambda is the wavelength. By totally reflecting off your sail, you get a total momentum change of dp = 2*p. To calculate the total pressure from the Sun on a sail of area A at distance D from the Sun, you need only to know the total solar luminosity, L = 3.8x10^26 Joules/sec. If your sail makes an angle theta with respect to the Sun, it has an effective area of A*cos(theta), and intercepts a total fraction f of the light, where f = A*cos(theta)/(4*pi*D^2), so a total photon energy of E = f*L hits it. Now, for a photon, E = pc, where c = 3x10^8 m/s, so you can find the total momentum of the light hitting your sails and p = E/c, and then your total momentum change per second is 2*p. Your acceleration is then 2*p/m, where m is your ship's mass, directed away from the Sun. There is more to Solar sailing, however, than just the radiation pressure. The Solar wind contains massive particles which will also hit your sail. I don't have data handy for what the flux is, but you would need to look it up and make some kind of correction for it. It might even dominate! It will be much harder to calculate the effects of the proton wind on your sail, since the protons will pass through your sail, imparting only some of their kinetic energy. It gets messy, as the energy loss fraction will depend upon the atomic composition of your sail and the energy distribution of the protons. I can work up some estimates if you want them. -Scott -------------------- Scott I. Chase "It is not a simple life to be a single cell, SICHASE@CSA2.LBL.GOV although I have no right to say so, having been a single cell so long ago myself that I have no memory at all of that stage of my life." - Lewis Thomas ------------------------------ Date: Fri, 20 Nov 1992 20:47:05 GMT From: david michelson Subject: space news from Oct 23 Science (not AW&ST) Newsgroups: sci.space,alt.sci.planetary In article <2421@usna.NAVY.MIL> wdw@math2.sma.usna.navy.MIL (Wm. Douglas Withers -- math FACULTY ) writes: > >I wonder why the same techniques can't be used to shed light on the question >of the presence of ice at the Moon's poles. Comments, anyone? > It's a matter of the relative inclination of the orbits of Mercury and Earth. From Slade, Butler, and Muhleman, ``Mercury Radar Imaging: Evidence for Polar Ice,'' Science, 258, 635--640, 23 Oct 1992: "On both days, the sub-earth latitudes were far enough north for our instruments to see over the north pole and into areas thought to be permanently shadowed from the sun." Figures 1 and 3 in Harmon and Slade, "Radar Mapping of Mercury..." which follows immediately after the Slade et al. paper, make this very clear. We simply can't see the moon from the same aspect from the earth's surface. We *really* need to get a lunar polar orbiting geochemical mapper built and launched! -- Dave Michelson davem@ee.ubc.ca ------------------------------ Date: Fri, 20 Nov 1992 21:07:06 GMT From: Dan Vento Subject: Space suit research? Newsgroups: sci.space In article <1992Nov17.033954.4419@ucsu.Colorado.EDU>, fcrary@ucsu.Colorado.EDU (Frank Crary) wrote: > > Actually, Vail or Aspen at ~10 psi average, would be a better example > than Denver (~12 psi...) I have never understood why NASA doesn't > consider this fact relevant. I know the reason the Case for Mars IV > conference endorsed 14.5psi for Mars missions: NASA apparently likes > it and will probably be using that pressure in many existing systems > by the time a Mars mission is launched. Having two different pressures > is a _major_ pain, so the general consensus was to stick to 14.5psi... > > Frank Crary > CU Boulder Another reason that NASA does not like low pressure high oxygen (e.g. 5 psi pure oxygen) is the danger of fires in the crew cabin while in orbit. Most materials don't burn easily in low g in "normal" air. Enriched oxygen environments can be a serious problem for materials flammability. Needless to say, this is a big driver in any decisions to be made about the cabin environment for manned flight. Dan Vento vento@mars.lerc.nasa.gov ------------------------------ Date: Fri, 20 Nov 92 22:35:42 EST From: John Roberts Subject: Space suit research? -From: fcrary@ucsu.Colorado.EDU (Frank Crary) -Subject: Re: Space suit research? -Date: 20 Nov 92 22:39:24 GMT -Organization: University of Colorado, Boulder -I wasn't suggesting enriched oxygen: A 10 psi, 20% oxygen atmosphere -should be perfectly acceptable. That's less oxygen than at sea level, -but certainly enough to support people (even physically active people). -Since there are cities with this sort of partial pressure of oxygen, -and people, in fact, go there to be physically active (ski), I'd say -there is considerable evidence that this isn't a health problem. Apparently anything significantly below 3 psi partial pressure of oxygen is a potential health risk, unless you have many generations of ancestors who lived in the mountains. The body undergoes various changes to adapt to low oxygen content, but some of these changes have undesirable side effects. I'll try to find that Scientific American article again and post a summary. John Roberts roberts@cmr.ncsl.nist.gov ------------------------------ Date: Fri, 20 Nov 92 23:04:48 EST From: John Roberts Subject: Space suit research? -From: ewright@convex.com (Edward V. Wright) -Subject: Re: Space suit research? -Date: 20 Nov 92 16:51:24 GMT -Organization: Engineering, CONVEX Computer Corp., Richardson, Tx., USA -In roberts@cmr.ncsl.nist.gov (John Roberts) writes: ->-or are there long term bio effects???? ->There *may* be. For example, one of the Apollo astronauts, after a busy day ->on the moon, had bleeding under his fingernails - thought to be mainly a ->result of the low pressure. Little indications like that made NASA uneasy. :-) -I can't see any reason why low pressure would cause bleeding under the nails -as long as the pressure inside the body was equally low. Sounds like NASA -was worried about a pressure leak in the gloves, causing the pressure there -to be lower than the pressure in the rest of the suit. That could, quite -likely, cause bleeding, with the pressure inside the body pushing a small -amount of blood through the skin under the nails (which is quite thin). Clearly, in non-toxic atmospheres of 1 Atm pressure or less, the main physiological consideration is the partial pressure of oxygen. Here are some *speculations* on ways in which the absence of gases other than oxygen might make a difference: # The internal body fluid differential pressures (and the range in blood pressure with the pulse) are a much larger fraction of the pressure of a 3 psi O2 atmosphere. (I'm not sure of any specific mechanism by which that would make a difference, but I don't think we can casually dismiss it as "obvious" that this wouldn't be a potential problem.) # Given the vapor pressure of the body fluids, I would think the rate of drying could be significantly increased. (Didn't somebody post that the Apollo astronauts had problems in this respect?) # Since the blood interacts much more strongly with oxygen and CO2 than with nitrogen, I would expect the air flow mechanisms within the lungs to be noticeably different. As I said, these are speculations. While oxygen content is the main concern, there *are* differences in a low-pressure, high-oxygen environment. One or more of these differences could produce effects that are subtle, but significant over the long run. Evidently, NASA isn't sure either. :-) John Roberts roberts@cmr.ncsl.nist.gov ------------------------------ Date: Fri, 20 Nov 1992 22:39:24 GMT From: Frank Crary Subject: Space suit research? Newsgroups: sci.space In article vento@mars.lerc.nasa.gov (Dan Vento) writes: >> Actually, Vail or Aspen at ~10 psi average, would be a better example >> than Denver (~12 psi...) I have never understood why NASA doesn't >> consider this fact relevant. >Another reason that NASA does not like low pressure high oxygen (e.g. 5 psi >pure oxygen) is the danger of fires in the crew cabin while in orbit. Most >materials don't burn easily in low g in "normal" air. Enriched oxygen >environments can be a serious problem for materials flammability. I wasn't suggesting enriched oxygen: A 10 psi, 20% oxygen atmosphere should be perfectly acceptable. That's less oxygen than at sea level, but certainly enough to support people (even physically active people). Since there are cities with this sort of partial pressure of oxygen, and people, in fact, go there to be physically active (ski), I'd say there is considerable evidence that this isn't a health problem. Frank Crary CU Boulder ------------------------------ Date: Fri, 20 Nov 1992 22:36:32 GMT From: "Edward V. Wright" Subject: SSTO viability Newsgroups: sci.space In roberts@cmr.ncsl.nist.gov (John Roberts) writes: >What *I'd* like to know is why geese feel it necessary to honk frequently >as they fly along, and what perhaps 50% of them know about Canada, that >they refuse to go there even in the summer! :-) Since you say geese are like bicycle riders, I'd guess they honk for the same reasons as most cyclists I've seen. To warn some hapless pedestrian that he's about to be run down from behind. :-) ------------------------------ Date: Fri, 20 Nov 1992 16:04:59 GMT From: Ed Beshore Subject: Re: FREE-ENERGY TECHNOLOGY For Spacecraft Message-Id: <2970001@hpgrla.gr.hp.com> Organization: Hewlett-Packard, Greeley, CO Path: crabapple.srv.cs.cmu.edu!fs7.ece.cmu.edu!news.sei.cmu.edu!cis.ohio-state.edu!zaphod.mps.ohio-state.edu!saimiri.primate.wisc.edu!sdd.hp.com!hpscit.sc.hp.com!scd.hp.com!hpscdm!hplextra!hpfcso!hpgrla!edb Newsgroups: sci.space References: <1edmmdINNfqh@transfer.stratus.com> Lines: 23 Sender: news@CRABAPPLE.SRV.CS.CMU.EDU Source-Info: Sender is really isu@VACATION.VENARI.CS.CMU.EDU There are a couple of fascinating things about Mr. McElwaine's postings. 1. I love the way such zealots use capitalization in their texts. Somehow their stuff always reads like a bottle of Dr. Brauner's concentrated soap. (If you don't know what I'm talking about, ask for it sometime at a health food/natural products store -- you'll know what I'm talking about right away.) 2. Another thing that is interesting is everyone else's reactions to him. Instead of considering him an amusing three sigma kind of character, people use much more net capacity trying to figure out how to silence him or flaming his posts. I propose someone post a small chunk of code to filter an author from a notes file. If you don't want to read someones posts, then you can let your coomputer do the clipping. Otherwise, consider him a colorful amusement... -------------------------------------------------------------- Edward Beshore Hewlett Packard Company Voice: (303) 350-4826 700 71st Avenue FAX: (303) 350-4675 Greeley Colorado, 80634 email: edb@hpgrla.gr.hp.com -------------------------------------------------------------- ------------------------------ End of Space Digest Volume 15 : Issue 444 ------------------------------