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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/AaEvl4S00VcJ88sk5O>; Sun, 6 May 90 01:55:17 -0400 (EDT) Message-ID: <waEvkai00VcJI8r05l@andrew.cmu.edu> Reply-To: space+@Andrew.CMU.EDU From: space-request+@Andrew.CMU.EDU To: space+@Andrew.CMU.EDU Date: Sun, 6 May 90 01:54:47 -0400 (EDT) Subject: SPACE Digest V11 #365 SPACE Digest Volume 11 : Issue 365 Today's Topics: Orbital Sciences Corp Products Re: Manned mission to Venus Re: Manned mission to Venus ---------------------------------------------------------------------- Date: 6 May 90 02:09:34 GMT From: sam.cs.cmu.edu!vac@pt.cs.cmu.edu (Vincent Cate) Subject: Orbital Sciences Corp Products Orbital Sciences Corp is the startup that, with Hercules, developed the new Pegasus rocket. They just had their initial public offering of stock. Alex Brown handled the IPO and they sent me a prospectus that is about 75 pages (I think you could still get one by calling (800) 326-1440). Anyway, I found the information about the OSC products very interesting, and thought you might as well. First my one-line descriptions of products: Pegasus .... New winged rocket we all know and love. Taurus ..... Peacekeeper first stage added to a Pegasus making 4 stage rocket Cygnus ..... Pegasus without wings launched from the ground. 1/2 payload Suborbital Boosters ..... Space Data division has done over 600 launches. Transfer Orbit Stage .... Booster for taking satellites from LEO to GEO. Prometheus .............. Looks like and ION DRIVE to me!!!!!!!!!! Tracking and Telemetry .. Have set up over 70 stations. Atmospheric Products .... 500 to 1,000 sounding rockets/year, lots of balloons Radiosondes ............. Put into rockets and balloons. Sold 20,000 in 1989. Space Instruments ....... Make TAPS, CIRRIS, and IMPS for NASA. PegaStar ................ 3rd stage of Pegasus becomes power, thermal control, communications, and attitude control for satellite!! DataSat ................. Store and forward 26 lb packet satellite. (20/launch) Below are more detailed descriptions of the products taken from the prospectus (there was no copyright on the prospectus). Enjoy, -- Vince vac@cs.cmu.edu ---------- excerpts from OSC prospectus except for {} parts ------------------ {page 22} Pegasus Launch Vehicle. The first Pegasus vehicle was successfully launched on April 5, 1990 and placed two small satellites into low-Earth orbit. The Pegasus air-launched space vehicle is a three-stage, winged, graphite composite launch vehicle that is approximately 50 feet long and 4.5 feet in diameter and weighs 42,000 pounds at launch. Pegasus is the first unmanned space launch vehicle to be developed in the United States in 20 years, excluding modifications of older launch vehicles. It incorporates advanced technologies that were adapted and integrated by the Company to improve product performance and reduce production and operating costs. The Pegasus vehicle has been developed and is being produced and marketed pursuant to a joint venture agreement with Hercules. See "Business -- Other Contracts -- Pegasus Joint Venture Agreement." Pegasus uses an airborne launch from a jet aircraft to place small satellite payloads weighing up to 1,000 pounds into low-Earth orbit. Because of its air-launched and aerodynamic lift-assisted features, Pegasus achieves efficiency gains that enable it to lift approximately twice the payload that can be carried by comparable ground-launched vehicles. The Pegasus vehicle's air-launched feature also provides a customer with greater flexibility than traditional ground-launched vehicles by reducing launch site costs and geographical constraints, reducing vulnerability to weather conditions and offering a greater range of orbit inclinations. {Skipping to page 23} Taurus and Cygnus Launch Vehicles. Taurus is being developed as a four-stage, ground-launched vehicle derived from the Pegasus vehicle. Its design provides for use of the Pegasus vehicle's avionics, control module and rocket motors, supplemented by a U.S. Air Force Peacekeeper missile first stage motor. Taurus will be approximately 90 feet long and 8 feet in diameter at its widest point and will weigh about 175,000 pounds at launch. Taurus is designed to be readily transported with a self-contained launch pad, including assembly and pre-flight testing equipment, so that launch from a variety of developed or remote locations can be achieved with 72 hours notice. It is expected that Taurus will launch payloads weighing up to 3,500 pounds into low-Earth orbit and up to 800 pounds into geosynchronous transfer orbit. No prototype of Taurus exists. {Another source claims the Taurus will cost $15 million and be able to } {put 2,300 lbs into a 400 n-mile high polar orbit, compared to 400 lbs } {for a standard Pegasus into the same orbit. This seems to be something } {like a factor of 3 cheaper per pound to orbit. This implies that a } {Peacekeeper first stage costs around $8 million or so, sounds reasonable?} {skipping to the bottom of page 23} During 1989, OSC conducted design and analysis work on another Pegasus-derived ground-launched vehicle called Cygnus. The Company currently expects that the Cygnus vehicle will be similar to the Pegasus vehicle, except for the elimination of the Pegasus vehicle's wing and certain other minor modifications relating to ground-launched capability. Cygnus is expected to use the ground-transportable pad and support equipment being developed for Taurus or the Starbird suborbital launch vehicle's permanent ground support equipment. Lacking the air-launched and aerodynamic lift-assisted characteristics of Pegasus, Cygnus would provide approximately one-half the payload capacity of Pegasus. However, Cygnus is intended to meet requirements of certain scientific and international users whose special needs dictate ground-launched vehicle. Cygnus is in the early design stage, no prototype exists and no contracts for Cygnus launch services have been obtained to date. {skipping another paragraph - now on page 24} Suborbital Booster Vehicles and Launch Support Systems. Since 1965, the Company's Space Data division has produced and launched over 600 suborbital vehicles in configurations weighing up to 70,000 pounds and reaching altitudes of up to 550 miles. OSC is developing and producing suborbital launch vehicles and related systems under several major contracts which include: three contracts for the U. S. Air Force's Minuteman missile consolidated front-end avionics, attitude control, telemetry and flight termination module ("CFE") and Starbird suborbital vehicles totalling approximately $60 million; a multi-year contract for target tracking and intercept experiments for the SDIO Flight Test Services Program ("FTSP") totalling approximately $25 million, with an additional $25 million in outstanding contract options; a contract for the Extended Range Interceptor Technology ("ERINT") target booster with the U.S. Army totalling $13 million, with an additional $5 million in outstanding operations; a contract with the University of Alabama for the Prospector microgravity experiment launch vehicle totalling $5 million; and a contract with Massachusetts Institute of Technology for the Firebird launch vehicle totalling approximately $3 million. The Company had recognized $46 million in revenues under these contracts as of December 31, 1989. See "Business -- Government Contracts." OSC also designs and builds scientific experiments and other payloads for launch {...} Additionally, the Company designs, constructs and activates launch pads and control complexes for government and university customers at many locations around the world. {...} {...} Transfer Orbit Stage. The TOS vehicle is a single-stage solid-propellant rocket that measures approximately 7.5 feet in diameter and 10.5 feet in length and weighs up to 24,000 pounds. The TOS has been engineered to be compatible with the Space Shuttle and Titan ELV. It is designed to transport larger satellite payloads from low-altitude orbits to high-altitude orbits, such as those used by communications satellites, or to planetary trajectories. TOS payloads would typically consist of communications satellites, scientific probes or other commercial and defense spacecraft weighing between 3,000 and 7,000 lbs. TOS development was undertaken by the Company pursuant to an agreement with NASA entered into in 1983. {...} {now on page 25} Prometheus Transfer Vehicle. In 1989, OSC and Rocket Research Company (a division of Olin Industries) ("Rocket Research") began to collaborate on the initial design of a high-performance transfer vehicle called Prometheus. It currently is planned that the Prometheus vehicle will be based on the technology developed by the Company in conjunction with its TOS and Pegasus programs and on recent advances in electric propulsion systems powered by a solar array instead of a chemical combustion-based propulsion system. Prometheus is in the early design stage, no prototype exists and no contracts for it have been obtained to date. {...} Satellite Tracking and Telemetry Systems. Since the early 1970s, the Company's Space Data division has built and installed over 70 meteorological and satellite tracking and telemetry stations around the world that are used to collect weather data and to communicate with and control orbiting spacecraft. Currently, OSC has a contract with Lockheed Corporation in a U.S. Air Force program to provide one Satellite Data Acquisition System ("SDAS") tracking and telemetry system for the Defense Meteorological Satellite Program ("DMSP"), with outstanding options for 15 additional systems. The Company is also building tracking and telemetry equipment for and providing technical support to the Air Force Air Weather Service and is providing certain government and commercial remote sensing satellite systems for users such as the U.S. Landsat program. Atmospheric Environment Products. OSC manufactures and sells upper-atmospheric meteorological sampling, environmental monitoring and data collection products consisting of weather and tracking balloons, meteorological sounding rockets and radiosonde instrumentation packages. The Company supplies a large number of domestic and international organizations with mylar inflatable weather and radar-tracking balloons and with small (10 feet high) Loki and SuperLoki meteorological rockets and other high-altitude sounding rockets used to carry instruments aloft for collecting and transmitting data on upper-atmospheric conditions and other phenomena. OSC builds and launches between 500 and 1,000 of these small rockets each year for customers including NOAA, NASA, the U.S. Army, the U.S. Air Force and various international customers. Radiosondes are small, electronic instrumentation packages carried aloft by weather balloons and sounding rockets to measure selected atmospheric environmental and meteorological conditions on a routine basis. During 1989, the Company manufactured and shipped approximately 20,000 radiosonde instruments to NOAA, various organizations within DoD and several state governments under contracts with an aggregate value of approximately $7 million. {...} {now on page 26} Space Instruments. OSC develops and produces a variety of special purpose high-technology instruments for an array of low-Earth satellite and suborbital missions. The Company has designed, developed and manufactured the Space Shuttle's Two-Axis Pointing System ("TAPS") for NASA as well as the Space Shuttle's CIRRIS experiment system for the U.S. Air Force. The Company is currently completing development of the Space Shuttle's Integrated Mirror Pointing System ("IMPS") for SDIO. TAPS, CIRRIS, and IMPS are technically sophisticated, high-precision instrument systems that use advanced lasers, industrial mirrors, infrared sensors and other devices that are carried in the Space Shuttle's cargo bay to track objects on Earth and in Space. In addition, through programs such as the Defense Nuclear Agency's Spear II space power experiment and the Air Force Geophysics Laboratory/ Utah State University's Spirit II high-altitude research project, the Company designs and integrates various space experiments that are launched on suborbital vehicles. PegaStar Spacecraft Platform. OSC is currently designing a low-cost, multi-purpose spacecraft platform called PegaStar. The PegaStar platform will be designed for use with Pegasus and Pegasus-derived launch vehicles. Using many of the same systems that operate the Pegasus vehicle, Pegastar will be built around the third stage of Pegasus to provide the "housekeeping" services necessary to support customer-provided instruments, communications devices and other scientific equipment in orbit. Because the PegaStar platform will provide both the rocket and the payload with electric power and thermal control, data handling and communications and attitude-control propulsion capable of orbit positioning, the need to duplicate these functions in a separate satellite is eliminated and overall performance can be improved. By eliminating the weight and cost necessary to provide separate avionics and data systems on both the payload and launch vehicle, PegaStar is expected to enable a user to place heavier, more sophisticated payloads into orbit for the same or lower launch cost than would be otherwise required. {...} DataSat Messaging, Tracking and Data Collection Services. The Company is designing a satellite-based messaging, tracking and data collection service it calls DataSat. An operational prototype of the DataSat system satellite has been produced and tested and is expected to be launched as a secondary payload aboard one of the initial Pegasus launches. It will be used to collect environmental and other data from remote platforms in the Chesapeake Bay for the Commonwealth of Virginia's Center for Innovative Technology. The Company has entered into an agreement with a large transportation company to test the feasibility of collecting data from mobile vehicles and equipment and has entered into other research agreements relevant to a possible messaging, tracking and data collection system. On February 28, 1990, the Company filed with the Federal Communications Commission an application to initiate a rulemaking proceeding to allocate radio spectrum to mobile satellite systems such as DataSat. Simultaneously, the Company filed an application for authority to construct, launch and operate a low-orbit mobile satellite system to provide DataSat services through its newly formed subsidiary, Orbital Communications Corporation. The Company also expects to be pursuing regulatory authority to provide such services internationally. There can be no assurance, however, that the Company will secure the necessary government approvals. {I think Ford is the "large transportation company"} {There are about 9.3 million shares issued. At $14.25/share, the total price} {of the company is about $132 million. Seems like a good buy to me. } {What do other people think? -- Vince } ------------------------------ Date: 5 May 90 21:27:46 GMT From: uokmax!jabishop@apple.com (Jonathan A Bishop) Subject: Re: Manned mission to Venus In article <112@percy.UUCP> gary@percy.UUCP (Gary Wells) writes: >Seems like a good idea to me. If you're going to have to live under a bubble >anyway, who _really_ cares what the outside is like? Having oxygen available >would be a real plus. Seems like most of the real hard problems about >moon or mars habitation revolve around supply of oxygen. The problem is that it is debatable whether or not we can support a bubble on the surface of Venus given our present technology; the environments on both planets are certainly harmful to unprotected humans, but Mars is much easier to protect against. Also, some work outside the bubble is going to be necessary; a Mars suit seems much more feasible than a Venus suit. >On a side note, 9 months isn't all that bad. Our forebears often survived >_years_ long trips on the sailing ships. Often in cramped,dark,wet quarters. >On poor rations. Under sadistic officers. I think we could stand 9 months >in a space ship. Even the Apollo's. I'm not so sure. In Apollo, the only private space available was in the LM tunnel. That might be adequate for a week, but it would not be enough, IMHO, for 9 months. (Kind of a moot question since we can't support an Apollo for that long, isn't it?) -- jabishop@uokmax.ecn.uoknor.edu "I'm President of the United States and I'm NOT going to eat any more broccoli!" -- George Bush ------------------------------ Date: 4 May 90 12:04:30 GMT From: usc!zaphod.mps.ohio-state.edu!rpi!uupsi!uhasun!jbloom@ucsd.edu (Jon Bloom) Subject: Re: Manned mission to Venus In article <3332@calvin.cs.mcgill.ca>, msdos@quiche.cs.mcgill.ca (Mark SOKOLOWSKI) writes: > - Notwithstanding its athmosphere, Venus is the TRUE twin of our Earth, and > it should be therefore our main target from the cultural point of view. Exactly what kind of culture do they have on Venus, hmmm? Jon ------------------------------ End of SPACE Digest V11 #365 *******************