Return-path: 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 ; Thu, 15 Mar 90 01:57:58 -0500 (EST) Message-ID: Reply-To: space+@Andrew.CMU.EDU From: space-request+@Andrew.CMU.EDU To: space+@Andrew.CMU.EDU Date: Thu, 15 Mar 90 01:57:34 -0500 (EST) Subject: SPACE Digest V11 #150 SPACE Digest Volume 11 : Issue 150 Today's Topics: Laser Fact Sheet (Forwarded) Re: Spacecraft on Venus ---------------------------------------------------------------------- Date: 15 Mar 90 04:36:17 GMT From: trident.arc.nasa.gov!yee@ames.arc.nasa.gov (Peter E. Yee) Subject: Laser Fact Sheet (Forwarded) Terri Sindelar March 16, 1990 Headquarters, Washington, D.C. Mike Simmons Marshall Space Flight Center, Huntsville, Ala. NASA'S FIRST MOBILE TEACHER RESOURCE CENTER The first of what NASA hopes will become a small fleet of tractor-trailer mounted mobile teacher resource centers debuted March 16 in Washington, D.C. The mobile teacher resource centers are part of a larger NASA program, Project LASER. LASER, in this case, stands for "Learning About Science, Engineering and Research." NASA established the mobile teacher resource trailer to reach teachers across the United States who would otherwise not have access to the stationary teacher resource centers (TRC) at NASA's field centers and at the regional TRCs. This pilot program has been developed by NASA's Marshall Space Flight Center, Huntsville, Ala., with corporate sponsorship, principally for this initial prototype, by Navistar International Transportation Corp., Chicago, Ill., Transcontinental Marketing Exhibits Inc., Lake Bluff, Ill., and the Society of Automotive Engineers, Warrendale, Penn. Additional mobile resource centers will be developed as the prototype progresses and further corporate sponsorships materialize. Project LASER is one of the 68 identified NASA initiatives in response to the goals and recommendations of The Task Force on Women, Minorities and the Handicapped in Science and Technology. "To meet the exploration and research goals in space and aeronautics levied by the President, NASA must make full use of a great resource, a highly skilled and talented workforce," said Admiral Richard Truly, NASA Administrator. "We must help insure that students today are well motivated and academically prepared to help conduct the Nation's future research and development efforts. I feel strongly that NASA has a special responsibility in education for a very simple reason. Our programs - airplanes, spaceships, Moon, Mars and astronauts - can get to kids." NASA has designed the interior of the trailer with six teacher work stations, each serving two teachers concurrently. Each work station is equipped with a computer providing access to "NASA Spacelink," an electronic information system with a broad range of information and educational materials of value to teachers of grades K-12, particularly in the areas of mathematics and science. Each work station also is equipped with videotapes recorder and a monitoring system so teachers can copy from a large library of NASA educational videotapes. In a separate common-use work station at one end of the trailer, NASA has installed a large library of lesson plans and activities and photographic slides related to aeronautics, astronomy and space exploration. The trailer contains photocopy and photographic equipment that will allow teachers to copy these materials for later use in their classrooms. The mobile center is staffed by a full-time specially selected mathematics and science teacher and two technicians. "Through the mobile centers, NASA hopes to accomplish three goals," said J D Horne, Director of the Executive Staff at the Marshall Space Flight Center, who initiated the mobile teacher resource center concept. "First, we want to help teachers facilitate and enrich science and mathematics education without adding to their teaching burden. Second, we want to provide well-designed, practical and interesting, 'hands-on' activities essential to get children to put forth the effort necessary to understand science and mathematics. Finally, we hope to focus greater effort on grades three through eight to create and maintain the necessary interest through positive reinforcement to sustain the students' desire to learn algebra, geometry, calculus, biology, chemistry and physics. We want to show students that science and engineering courses are not 'too tough,' or for geniuses only. To reach the students, we must first reach their teachers," Horne concluded. "This is the ultimate goal of the new mobile teacher resource centers." The 22-ton mobile teacher resource center consists of a deep blue International tractor which was provided by Navistar and a 48-foot-long, van-style trailer, provided by Trans- continental Marketing Exhibits. The trailer, also painted deep blue, is decorated with a full-color rendition of a Space Shuttle orbiter flying over the Earth, and carries the logo "NASA -- Project LASER." Access to the instructional trailer is via stowable stairways at the front and rear of the trailer. A Braun power- lift at the rear of the trailer allows handicapped persons access. A NASA educator will staff the mobile teacher resource center and conduct workshops for teachers in order that they may take maximum advantage of resources available at the mobile center and through NASA's Educational Affairs Division. The need to boost interest in science and mathematics across the nation is critical. As President Bush stated in a convocation ceremony Sept. 28, 1989 at the University of Virginia, "Education is a way of life. And educational reform is an urgent responsibility for every parent, every student, every community. And those who do not advance the cause of education hinder it." Project Laser was created as part of NASA's commitment to meeting this challenge. In addition to the mobile teacher resource center, the Project Laser program includes the development of a space technology course by a team of certified teachers and Marshall Space Flight Center scientists and engineers. Further, a school in the Huntsville, Ala., area is serving as a prototype where space science studies are being integrated with traditional courses. And, Marshall has recruited a team of current and retired center and contractor employees who have made themselves available to make presentations in public schools and serve as tutors, field trip hosts and consultants to teachers. This pilot effort is one of dozens of NASA programs at the elementary, secondary and college levels intended as catalysts to American education, particularly in math and science. "NASA doesn't assume all students it contacts will want to become astronauts or space scientists," said Horne. "We know most will move on to careers outside science and engineering. Yet NASA does know that unless America provides itself with a large enough pool of scientists and engineers, our nation's world leadership role in science and technology will be seriously threatened." ------------------------------ Date: 15 Mar 90 02:04:46 GMT From: cs.utexas.edu!mailrus!b-tech!kitenet!russ@tut.cis.ohio-state.edu (Russ Cage) Subject: Re: Spacecraft on Venus In article <1628@bmers58.UUCP> bnr-fos!hwt%bmerh490 writes: >TIMMs (Thermally Integrated Micro Modules) are it - a set of ceramic >and metal vaccuum tubes, sealed and the whole assembly is heated to >a nice warm red glow. Heat dissipation - why measure ? Good 1950's >technology. This is neat. We have 2 vacuum and 2 possible semiconductor technologies which might be usable on a long-term Venus lander. Counting them, in order of (likely) availability date: 1.) TIMMs 2.) SiC semiconductors (maybe doubtful, but they are high-temp) 3.) Field-emission cathode micro-tubes (or whatever they're called). 4.) Diamond semiconductors (probably much higher temp than SiC) The first has the advantage that they're available now, the second and fourth that they'd have much lower power dissipation and you could make better computers out of them, and the third might be available very soon and share some of the advantages of #1 along with real small size. Now all that is necessary is a power supply. These are all devices which (will) require electricity, what will work at Venus temps? Are Peltier junctions available for RTGs which can run at 800 F on the *cold* side? What about rectennas to receive beamed power from a (higher, cooler) balloon-borne probe? (If we can make an 800 F transistor, we can make an 800 F Schottky diode, I bet.) -- I am paid to write all of RSI's opinions. Want me to write some for you? (313) 662-4147 Forewarned is half an octopus. Russ Cage, Robust Software Inc. russ@m-net.ann-arbor.mi.us ------------------------------ End of SPACE Digest V11 #150 *******************