Space & Astronomy

home *** CD-ROM | disk | FTP | other *** search

/ Space & Astronomy / Space and Astronomy (October 1993).iso / mac / TEXT / SPACEDIG / V10_2 / V10_217.TXT < prev next >

Wrap

Internet Message Format | 1991-07-08 | 14KB

Return-path: <ota+space.mail-errors@andrew.cmu.edu> X-Andrew-Authenticated-as: 7997;andrew.cmu.edu;Ted Anderson Received: from beak.andrew.cmu.edu via trymail for +dist+/afs/andrew.cmu.edu/usr11/tm2b/space/space.dl@andrew.cmu.edu (->+dist+/afs/andrew.cmu.edu/usr11/tm2b/space/space.dl) (->ota+space.digests) ID </afs/andrew.cmu.edu/usr1/ota/Mailbox/MZJdvWO00VcJQJsk4b>; Tue, 7 Nov 89 04:22:43 -0500 (EST) Message-ID: <4ZJdv=q00VcJAJr05F@andrew.cmu.edu> Reply-To: space+@Andrew.CMU.EDU From: space-request+@Andrew.CMU.EDU To: space+@Andrew.CMU.EDU Date: Tue, 7 Nov 89 04:22:20 -0500 (EST) Subject: SPACE Digest V10 #217 SPACE Digest Volume 10 : Issue 217 Today's Topics: Future Space Missions Star Database ? Payload Status for 11/02/89 (Forwarded) Re: Voyager/Galileo Camera function Re: Antique Probes Re: Antique Probes ---------------------------------------------------------------------- Date: 6 Nov 89 18:03:24 GMT From: cs.utexas.edu!usc!henry.jpl.nasa.gov!elroy.jpl.nasa.gov!jato!mars.jpl.nasa.gov!baalke@tut.cis.ohio-state.edu (Ron Baalke) Subject: Future Space Missions Future Space Missions 1989 Missions o Cosmic Background Explorer (CBE) Launched by expendable rocket in November 1989, The CBE's mission is to measure space radiation, possibly from the "Big Bang". 1990 Missions o Roentgen Satellite To be launched by expendable rocket in February, the Roentgen will study X-ray emissions from stars and galaxies. o Hubble Space Telescope Space Shuttle launch in March, it will study the universe for 15 years or longer. From above the Earth's obscuring atmosphere, it will "see" planets, stars, and other objects in the universe about 10 times better than now possible with the best telescopes on the ground. o Astronomy/Broad Band X-Ray Telescope In March, to be carried aboard a shuttle, this telescope will obtain ultraviolet and X-ray data on stars. o Gamma Ray Observatory (GRO) April, shuttle, this space observatory will investigate black holes, neutron stars and other gamma-ray emitters. o Space Life Sciences Lab June, on-board shuttle lab will be the first in a series on US missions to study to effects of weightlessness. o Combined Release and Radiation Satellite June, expendable rocket will study the effects of radiation on spacecraft components. o Ulysses Octobter by rocket, will study the sun and its emissions and will use a Jupiter gravity assist. 1991 Missions o Tethered Satellite System January, shuttle, attached by tether to the shuttle bay, system will study electrical fields and gas clouds in space while demonstrating the capabilities of deploying and retrieving a tethered satellite. o International Micrograving Lab February, shuttle lab will set up systems for life-science studies. o Atmospheric Lab for Applications and Science (ATLAS) May, shuttle, this manned lab will study variations in the solar spectrum and Earth's atmosphere. o Spacelab July aboard shuttle, carry out low-gravity experiments. o Extreme Ultraviolet Explorer August, rocket, this satellite will study the evolution and population of stars and galaxies. o Upper Atmosphere Research Satellite (UARS) October, shuttle launch, will study upper atmosphere chemistry. o Small Explorer-1 November, first in a series of rocket launches to study space physics and atmospheric science. 1992 Missions o Space Radar Lab May shuttle, gather radar images of Earth's surface. o TOPEX/Poseidon June rocket, TOPEX will study the relationship of ocean systems to climate. o Mars Observer September by rocket, to study Mars' climate and surface. o Shuttle High-Energy Astrophysics Lab September, on-board shuttle study of space X-ray sources. 1993 Missions o Gravity Probe June, shuttle launch, prototype mission to test Einstein's theory that space is curved. o Polar Orbiting Satellite June, measure solar wind and ions and gases surrounding the Earth. o Waves in Space Plasma November, shuttle attached antennae that will send out radio waves to measure the ionosphere. Proposed Missions: o Advanced X-ray Astronomy Facility (AXAF) Possible launch from shuttle in 1995, AXAF is a space observatory with a high resolution telescope. It would orbit for 15 years and study the mysteries and fate of the universe. o Comet Rendezvous Asteroid Flyby (CRAF) Possible launch in 1995, a deep space probe to comet Kopff to study it in detail for 3 years. o Earth Observing System (EOS) Possible launch in 1997, 1 of 6 US orbiting space platforms to provide long-term data (15 years) of Earth systems science including planetary evolution. o Cassini Possible launch in 1996, orbiter would spend 4 years studying Saturn and send an atmospheric probe into the moon Titan. o Mercury Observer Possible 1997 launch. o Lunar Observer Possible 1997 launch, would be sent into a long-term lunar orbit. The Observer, from 60 miles above the moon's poles, would survey characteristics to provide a global context for the results from the Apollo program. o Space Infrared Telescope Facility Possible launch by shuttle in 1999, this is the 4th element of the Great Observatories program. A free-flying observatory with a lifetime of 5 to 10 years, it would observe new comets and other primitive bodies in the outer solar system, study cosmic birth formation of galaxies, stars and planets and distant infrared-emitting galaxies o Mars Rover Sample Return (MRSR) Robotics rover would return samples of Mars' atmosphere and surface to Earch for analysis. Possible launch dates: 1996 for imaging orbiter, 2001 for rover. o Fire and Ice Possible launch in 2001, will use a gravity assist flyby of Earth in 2003, and use a final gravity assist from Jupiter in 2005, where the probe will split into its Fire and Ice components: The Fire probe will journey into the Sun, taking measurements of our star's upper atmosphere until it is vaporized by the intense heat. The Ice probe will head out towards Pluto, reaching the tiny world for study by 2016. Ron Baalke | (818) 541-2341 x260 Jet Propulsion Lab M/S 301-355 | baalke@mars.jpl.nasa.gov 4800 Oak Grove Dr. | Pasadena, CA 91109 | ------------------------------ Date: 6 Nov 89 12:05:18 GMT From: agate!shelby!portia!navier!jle@ucbvax.Berkeley.EDU (Jon Ebert) Subject: Star Database ? I'm looking for a good database of astronomical information, star positions, radio sources, x-ray sources, etc.. Does anyone know of a good source for such a database? jle@navier.stanford.edu Jon Ebert ------------------------------ Date: 6 Nov 89 12:56:33 GMT From: trident.arc.nasa.gov!yee@ames.arc.nasa.gov (Peter E. Yee) Subject: Payload Status for 11/02/89 (Forwarded) [Visited KSC on Friday. I can now tell you that O&C stands for Operations and Checkout. It's located next the KSC HQ building. -PEY] [My travels will cause there to be some delay in getting out some status reports, especially the ones that require editing. -PEY] Daily Status/KSC Payload Management and Operations 11-02-89 - STS-31R HST (at VPF) - The HST functional test is active at the VPF and will continue thru Friday. There have been no significant problems. Personnel are supporting the continuous VPF environmental and ECS unit monitoring. -STS-32R SYNCOM (at VPF) - VPHD access platforms were positioned, J-hooks installed, and last night alignment for the SYNCOM spacecraft was completed. - STS-34 (at OPF) - IUS PCP/CIU removal from the orbiter is scheduled for Friday, IUS ASE deintegration with the orbiter is scheduled for Saturday, and SSBUV removal is scheduled for next Monday. - STS-35 ASTRO-1/BBXRT (at O&C) - The PSPOS acceptance test (tank 3) was completed. The OSP splice repair is on hold pending new wire on dock. - STS-40 SLS-1 (at O&C) - Rack 7 and 10 stiffener mod activities have picked back up. Both rack 7 and rack 10 were rotated yesterday. Water servicing GSe prep and validation is active. Pyrell foam replacement preps are active with electronic housing cover removals. ------------------------------ Date: 6 Nov 89 15:22:52 GMT From: zephyr.ens.tek.com!tekig5!philj@uunet.uu.net (Phil Jansen) Subject: Re: Voyager/Galileo Camera function %>(Fred Kokaska) writes: %>> Can the cameras on the Voyager and Galileo spacecrafts be aimed back at [ the spacecraft? ] %In article <2734@cbnewsl.ATT.COM> sw@cbnewsl.ATT.COM (Stuart Warmink) writes: %>Even if the cameras could be pointed in such a fashion, the picture would be %>hopelessly out of focus...the depth of field of telelens cameras, especially In article <16027@nuchat.UUCP> steve@nuchat.UUCP (Steve Nuchia) replies: %What is "hopeless" with modern image processing? . . . Why bother with 'modern' image processing? Why don't we just paste a picture of Voyager onto the photo it took? Professional photographers do it all the time. Sometimes the old-fashioned method gives the best results. -- If you repeat things often enough, they become true. Phil Jansen If you repeat things often enough, they become true. philj@tekig5.pen.tek.com If you repeat things often enough, they become true. ------------------------------ Date: 6 Nov 89 20:25:18 GMT From: cs.utexas.edu!usc!henry.jpl.nasa.gov!elroy.jpl.nasa.gov!forsight!jato!mars!baalke@tut.cis.ohio-state.edu (Ron Baalke) Subject: Re: Antique Probes Of the probes you've listed, we are still receiving signals from Pioneer 6-9, Pioneer 10 and 11. The Lunar Observer is a future mission to the moon. We are also still receiving signals from both Voyagers and Giotto (Haley's Comet probe). Ron Baalke | (818) 541-2341 x260 Jet Propulsion Lab M/S 301-355 | baalke@mars.jpl.nasa.gov 4800 Oak Grove Dr. | Pasadena, CA 91109 | ------------------------------ Date: 7 Nov 89 02:37:44 GMT From: terry@astro.as.utexas.edu (Terry Hancock) Subject: Re: Antique Probes In article <20559@ut-emx.UUCP> clyde@ut-emx.UUCP (Clyde W. Hoover) writes: >In article <31620@cci632.UUCP>, lmm@cci632.UUCP (Lance Michel) writes: >> From: lmm@cci632.UUCP (Lance Michel) >> Subject: Antique Probes >> >> Pioneer >> Venus 1 1978 Where are they now? How do you know? >> Venus 2 Probes released? What about them? > *Don't recall Pioneer Venus 2, but PV1 may still be working. No > probes released - the Soviets do that sort of thing. Whoa! Pioneer Venus 2 dropped 5, count 'em, FIVE probes onto Venus. The thing looked a bit like a multiple warhead missile (too much for my tastes, but it worked :-)). There was one axially mounted "Large Probe" and three "Small Probes" mounted around it. The bus entered the atmosphere too, taking data until it disintegrated. Drop probe missions: Large Probe -- 1.5 m diameter / 73cm dia pressure shell (ball) Instruments - Neutral Mass Spectrometer Gas Chromatograph Solar Flux Radiometer (~="light meter") Infra-Red Radiometer Cloud Particle Size Spectrometer Atmospheric Structure Experiment (~=?) (Probably Temp. & Press.) Nephelometer (~="cloud meter") Hard-landed on day side. Studied atmosphere, data lost on impact. Small Probes -- 76 cm dia (including heat sheild) Instruments - Atmospheric Structure Experiment Nephelometer Net-Flux Radiometer 1- "North Probe" landed on dark side (59.3 N, 4.8 long) Data lost on impact. 2- "Night Probe" landed on dark side (28.7 S, 56.7 long) Survived 2 sec after impact. 3- "Day Probe" landed on day side (31.3 S, 317.0 long). Survived 67.5 minutes (wow!) after impact. Final internal temperature 126 C. Lost due to power exhaustion? Bus -- ~2.5 m across (from picture next to worker) Instruments - Neutral-Mass Spectrometer Ion-Mass Spectrometer Survived 63 sec in upper atmosphere, fried at 120 km alt. Small Probes >> >> SOVIET PROBES: Any info at all would be interesting. >> Venera > * Early Veneras died enroute. Recent Veneras have make radar maps > from orbit, dropped landers (which didn't survive long on the surface > of Venus) and balloons. Current status of recent ones unknown. Hey, do you hate Russians, or what? The Soviets have done an EXCELLENT job on Venus, don't knock it: Venera 1 - 3 did fail. Venera 4,5,6 did roughly the same sort of measurements as PV 2, but IN 1970!! Dropped atmospheric study probes, died on impact. Venera 7,8 Survived impact. Venera 9,10 Survived impact 30min - 1 hour, one B&W surface panoramic image each. Venera 11,12 Atmosphere & Surface chemical studies, no images planned or taken. Venera 13,14 Two high resolution images each, 127 minutes on surface for 13 (exceeding 32 min design life, BTW), 14 lasted 57 min (same design life). Venera 15,16 Two radar mappers, covered polar regions. Vega 1,2 - Venus/Halley's Comet mission, dropped one balloon probe each to study Venusian atmosphere, in addition to landers. the landers lasted ~hour, the balloons about a day & a half. Buses went on to intercept Halley, making measurements which assisted in getting Giotto's course right, BTW. I would elaborate further, but I'm pressed for time, if you're curious, e-mail me. Or better yet get the source I'm using now: JANE'S "Solar System Log" (Andrew Wilson) (C) 1987 > >Shouter-To-Dead-Parrots @ Univ. of Texas Computation Center; Austin, Texas > clyde@emx.utexas.edu; ...!cs.utexas.edu!ut-emx!clyde > **************************************** Terry Hancock terry@astro.as.utexas.edu **************************************** ------------------------------ End of SPACE Digest V10 #217 *******************