41. [2e] Illustrations This chapter introduces the topic being discussed. Chapter B. It presents the PeriodicPrinciple that governs the development of new propulsion systems. http://propulsion.20m.com/text_2e.htm

Cheap Web Site Hosting Web Hosting Illustrations of monograph [2e] Menu: (Here in English) Home Page About Page Links Page Catalog Page ... Text of [8] (Here in Polish) Home Page About Page Links Page Catalog Page ... Text of [8] (Related in English) Totalizm.20m Totalizm.20fr Truenirvana God.20m.com ... TimeVehicle (Text of [8] in:) This site Totalizm.20m Totalizm.20fr Totalism ... Republika (Text of [7/2] in:) Totalism Truenirvana Totalizm.20m Totalizm.20fr ... UFOnauci (Text [5/3] in:) Ufonauts Totalizm.20fr Telekinesis Telepathy ... TimeVehicle (Text [6/2] in:) God.20m.com TimeVehicle Telekinesis Telepathy (Text [7] in:) TimeVehicle Telekinesis Telepathy ([1e]-no illus, in:) God.20m.com UFOnauts Propulsion God.20m.com ... Telepathy (Text of [1e] in:) God: 1, UFOns: 1, Propul: 1, TimeVeh: 1, ... Telep: 1, ([2e]-no illus, in:) God.20m.com UFOnauts Propulsion God.20m.com ... Telepathy (Text of [2e] in:) God: 1, UFOns: 1, Propul: 1, TimeVeh: 1, ... Telepat: 1, (Polish Sites) Nirwana UFOnauci Cierniowaprawda Prawda.20m ... Prawda.20fr (Figs in Polish:) [1/3]-TimeV:1, [1/3]-Telk: 1, [1/3]-Telp: 1, [3b] in TimeVeh ... [8] in TimeVeh Complete text and all illustrations for monograph [2e] by Dr Jan Pajak, on the "Oscillatory Chambers" (ISBN 0-9583380-0-0) In order to download to your computer text of any of volumes listed below, or in order to see/download any illustraction, just

42. Quantum Well Infrared Photodetector (QWIP) - Home Page QWIP Technology Group at JPL / NASA. Lead by Dr. Sarath Gunapala, this group has developed several Infrared Cameras using QWIP technology. http://qwip.jpl.nasa.gov

Welcome to the QWIP Website QWIP stands for Q uantum W ell I nfrared P hotodetector. What's New Researchers at JPL have created the world's first four-band infrared focal camera that will allow them to "see" details in infrared that were unachievable with previous technology. News Release ( QWIP1.doc Four-band movies ( Videos JPL QWIP group in collaboration with indigo systems corporation has demonstrated a 640x512 pixels format portable long wavelength infrared camera. [QWIP Phoenix] News Release ( QWIPphonenix.doc Intro Tutorial FAQ ... Links Clearance No. CL 01-0633

43. [1e] Text Complete text and all illustrations for the monograph 1e by Dr Jan Pajak, Advanced Magnetic propulsion Systems (1990, ISBN 09597698-9-7). http://propulsion.20m.com/text_1e.htm

Cheap Web Site Hosting Web Hosting Text and Figures for [1e] Menu: (Here in English) Home Page About Page Links Page Catalog Page ... Text of [8] (Here in Polish) Home Page About Page Links Page Catalog Page ... Text of [8] (Related in English) Totalizm.20m Totalizm.20fr Truenirvana God.20m.com ... TimeVehicle (Text of [8] in:) This site Totalizm.20m Totalizm.20fr Totalism ... Republika (Text of [7/2] in:) Totalism Truenirvana Totalizm.20m Totalizm.20fr ... UFOnauci (Text [5/3] in:) Ufonauts Totalizm.20fr Telekinesis Telepathy ... TimeVehicle (Text [6/2] in:) God.20m.com TimeVehicle Telekinesis Telepathy (Text [7] in:) TimeVehicle Telekinesis Telepathy ([1e]-no illus, in:) God.20m.com UFOnauts Propulsion God.20m.com ... Telepathy (Text of [1e] in:) God: 1, UFOns: 1, Propul: 1, TimeVeh: 1, ... Telep: 1, ([2e]-no illus, in:) God.20m.com UFOnauts Propulsion God.20m.com ... Telepathy (Text of [2e] in:) God: 1, UFOns: 1, Propul: 1, TimeVeh: 1, ... Telepat: 1, (Polish Sites) Nirwana UFOnauci Cierniowaprawda Prawda.20m ... Prawda.20fr (Figs in Polish:) [1/3]-TimeV:1, [1/3]-Telk: 1, [1/3]-Telp: 1, [3b] in TimeVeh ... [8] in TimeVeh Complete text and all illustrations for the monograph [1e] by Dr Jan Pajak, "Advanced Magnetic Propulsion Systems" (1990, ISBN 0-9597698-9-7) Note: In order to download to your computer the text of any of volumes listed below, or in order to see/download any illustration, just

44. Knolls Atomic Power Laboratory (KAPL) Supports the United States Naval Nuclear propulsion Program by developing advanced propulsion technology, providing technical support for operating naval reactors, and providing training for naval personnel. Located in Niskayuna, New York. http://www.iss.external.lmco.com/kapl/

45. Bettis Laboratory, A Contractor In The Naval Nuclear Propulsion Program BAPL supports the development and use of advanced propulsion systems for U.S. Navy Vessels by performing basic research; testing new components; and providing technical expertise during construction, maintenance and refueling. http://www.bettis.gov/

Bettis Laboratory Home Career Opportunities Campus Interviews Summer Intern Program Fellowship Programs ... for Suppliers) Bettis Laboratory Investigate Career Opportunities the laboratory has to offer. For more than 50 years, the Bettis Laboratory has been developing advanced naval nuclear propulsion technology and providing technical support to ensure the safe and reliable operation of our nation's submarine and aircraft carrier fleets. The Bettis Laboratory is operated for the Department of Energy by Bechtel Bettis Inc. The Bettis Laboratory is solely dedicated to the Naval Nuclear Propulsion Program, which is a joint Navy-DOE program responsible for the research, design, construction, operation, and maintenance of U.S. nuclear-powered warships. Bettis is An Equal Opportunity Employer and is Committed to Workforce Diversity This site conforms to W3C's "Web Content Accessibility Guidelines 1.0", available at http://www.w3.org/TR/1999/WAI-WEBCONTENT-19990505

46. Antimatter.phys.psu.edu/ Alternative propulsionIf you do not have a framescapable browser, get one hereor follow this link to the alternative propulsion site. http://antimatter.phys.psu.edu/

47. Nuclear Thermal Propulsion Information resources on space nuclear propulsion, space policy and other nuclear related topics. http://www.fas.org/nuke/space/index.html

FAS Homepage Nuclear Resources Index Search ... Join FAS NUCLEAR THERMAL PROPULSION I Introduction Early Developments Aircraft Nuclear Propulsion Rover / Nerva ... Other Early Programs Strategic Defense Initiative Introduction Power Sources Applications Evaluation Space Exploration Initiative Introduction Technical Concepts Development Issues Applications ... Status TIMBERWIND / Space Nuclear Thermal Propulsion Introduction TIMBERWIND Technical Concepts and Developments Applications ... The Timber Wind Special Access Program , Department of Defense Inspector General Audit Report No. 93-033, December 16, 1992 Background on Space Nuclear Power by Steven Aftergood, Science and Global Security , 1989, Volume 1. FAS Homepage Nuclear Resources Index Search ... Join FAS http://www.fas.org/nuke/space/ Authored by John Pike Maintained by Steven Aftergood

48. Space Propulsion Guide space propulsion. Space propulsion. Guide. Laser propulsion Nuclear Proplusion(New) Solar Sails (New) Space propulsion Links StarDrive http://members.lycos.co.uk/spaceprojects/propulsion.html

Space Propulsion Guide Space Guide Launch Vehicles Spacecraft Space Exploration Spaceplanes ... Space Stations Space Propulsion Space Quiz Space Future World Space Space Miscellaneous ... Home Page Search the Web. Type it and go! Options Email Contact Info About Find out about all the facilities available to this site. SITEMAP Navigate around this site. Welcome to Space Projects and Info's Space Propulsion Guide! If you want to know when this web site is updated, then join the emailed newsletter. Please read the newsletter to read what its like. Rocket Engines =)USA's Rocket Engines =)European Rocket Engines =)Japanese Rocket engines ... =)Ukraine Engines Updated: SSME NK-33 Laser Propulsion Nuclear Proplusion (New) Solar Sails (New) Space Propulsion Links: StarDrive Engineering : an all-electric light-speed propulsion system (New) Uncle Rocket : The complete description of the russian RD107/RD108 rocket engines Advanced Propulsion Concepts NASA Breakthrough Propulsion Physics Project Antimatter Propulsion Page Warp Drive Home Page ... Atrex for Future Space Plane : Institute of Space and Astronautical Science Propulsion System Laboratory- Japan Aerojet-LR87 Liquid rocket Engine Centre for Hyersonics (New Link) Mini-Magnetospheric Plasma Propulsion (New Link) The John Hopkin's University- Chemical Propulsion Information Agency (New Link)

49. Ocean Science Research Element Studies of the oceans from space using satellite data and modelling. http://oceans-www.jpl.nasa.gov/

50. Stage Pilotage : Propulsion, Stage De Pilotage Sur Porsche Translate this page propulsion, école de pilotage, vous présente ses stages de pilotagesur Porsche, pour conducteurs débutants ou confirmés. http://www.pro-pulsion.com/

Stage pilotage Propulsion, stage de pilotage sur Porsche Propulsion, école de pilotage, vous présente ses stages de pilotage sur Porsche, pour conducteurs débutants ou confirmés : Stage pilotage Ecole de pilotage Ecole pilotage automobile Ecole Porsche ... Référencement Gratuit Afin de visualiser ce site dans les meilleures conditions, vous devez disposer du Plug-in MACROMEDIA Flash 4.0. cliquez sur le bouton et bonne visite !

51. JPL's NDEAA's NDE Homepage Includes links to articles. Research and development includes focus on composite materials using leaky Lamb waves and Polar Backscattering, robotic NDE, and sensors. http://ndeaa.jpl.nasa.gov/nasa-nde/nde/nde-hp.htm

NDE at the JPL's NDEAA Technologies Nondestructive Evaluation (NDE) This website includes links to NDEAA Technologies published articles . A description of this lab capability and activity is given in the NDEAA Technologies - NDE Activity Homepage . This research and development includes NDE of composite materials using leaky Lamb waves and Polar Backscattering. This research is conducted in cooperation with Prof. Ajit Mal, Mechanical and Aerospace Engineering Dept., University of California, Los Angeles (UCLA) Publications The following papers require Adobe Reader. "Leaky Lamb Waves NDE of Composites" - Review of QNDE 1997 "Laser Induced UT Plate Waves" - ASNT Fall Conf. 97 "Smart NDE system for corrosion" - ASNT Spring Conf. 98 "Crawling Platform" - ASNT Spring Conf. 98 "LLW NDE of Aging Airacft" - ASNT Spring Conf. 98 "LLW NDE of Composites" - Paper to SPIE, San Antonio, TX March 1998 "LLW NDE of Composites" - Paper to the 7th European Conf. on NDE, Copenhagen, Denmark, May 26-29, 1998 "Mother-Crawler and Modular NDE-Boards for Robotics Scanning and Testing" - ASNT Fall Conf., October 19-22, 1998, Nashville, TN. "Composite materials stiffness determination and defects characterization using enhanced LLW dispersion data acquisition method" - SPIE's 6th Annual International Symposium on NDE of Aging Aircraft, Airports, and Aerospace Hardware (nd02), Newport Beach, CA 3-5 March 1999

52. OPS: Home Utilizing stock, unmodified automotive gas or diesel engines, OPS has developed a water jet drive system designed to be easily bolted on or designed into the hull of boats 18' to 30' in length. Located in Ormand Beach, Florida. http://www.opsjet.com

Please visit our new web site www.jetpac.us

53. Imaging Radar Home Page At The NASA Jet Propulsion Laboratory Imaging Radar @ southport http://southport.jpl.nasa.gov/

54. FE: Electric Propulsion GB Research carried out by the Institute of Space Systems. Also contains a good overview of the various types of electric propulsion. http://www.irs.uni-stuttgart.de/RESEARCH/EL_PROP/e_el_prop.html

IRS Research Deutsche Version Electric Space Propulsion Overview In the field of space transportation, it was recognized quite early that the propulsion abilities of the chemical rocket propulsion units are so minimal that missions which require higher propulsion can only be successfully carried out with a multiple gradation and a small portion of payload. The reason for this lies in the inferior energy capacity of the fuel whereby the maximum attainable exit speed from a rocket nozzle is limited to approximately 4 to 5 km/s One possibility of overcoming this limitation is the coupling of additional energy for example in the form of electric energy. This was already performed by Goddard in 1906 and later by Hermann Oberth in his book "The Rocket to the Planetary Spaces" Because the possibility of space travel was first made concrete with the development of large rockets after World War II, it was mainly the work of Ernst Stuhlinger which once more drew attention to the advantages of electric space propulsion, and has, since the 1960s, led an extensive worldwide research and development program. Various concepts differing extensively from one another, mainly on the basis of the acceleration mechanism, were examined because with electric energy, acceleration can occur purely thermally, electrostatically or electromagnetically. In order to achieve efficient utilization of electrostatic or electromagnetic acceleration forces, a charge carrier must first be established through the ionization of the fuel, for which there are again different starting points.

55. Stella Suppliers of marine engines and propulsion systems including Baudouin, Steyr and Mermaid http://reo-marine.com

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56. Fuelcell Propulsion Institute Fuelcell propulsion Institute. The Fuelcell propulsion Institute is an internationalconsortium structured as a nonprofit membership organization. http://www.fuelcellpropulsion.org/

INSTITUTE ORGANIZATION INDUSTRY COMMITTEES ... CLOSE SITE MAP Fuelcell Propulsion Institute The Fuelcell Propulsion Institute is an international consortium structured as a nonprofit membership organization. Comprised of corporations, trade associations, national laboratories, and academic institutions, it assembles the major players of industries seeking commercialization of fuelcell vehicles as industrial machines. An example of an active industry within the Institute is underground mining. A unique role of the Institute is to bring together technology developers, manufacturers, and end-users within an industry to plan vehicle development and demonstration projects. The planned vehicle is "pulled" by industry rather than "pushed" by technologists, and the resulting machine has high commercialization potential. Members are organized both by industry and by vehicle. Industries are grouped into Industry Committees

57. Emerging Possibilities For Space Propulsion Breakthroughs article by Marc.G.Millis http://www.lerc.nasa.gov/WWW/PAO/html/warp/ipspaper.htm

Emerging Possibilities for Space Propulsion Breakthroughs Originally published in the Interstellar Propulsion Society Newsletter, Vol. I, No. 1, July 1, 1995. Marc G. Millis Space Propulsion Technology Division NASA Lewis Research Center Cleveland, Ohio The ideal interstellar propulsion system would be one that could get you to other stars as quickly and comfortably as envisioned in science fiction. Before this can become a reality, two scientific breakthroughs are needed: discovery of a means to exceed light speed, and discovery of a means to manipulate the coupling between mass and spacetime. This article explains why these breakthroughs are needed and introduces the emerging possibilities that may eventually lead to these breakthroughs. It should be noted that either of these breakthroughs by itself would have revolutionary consequences which would be of enormous value. The need to exceed light speed: Simply put, the universe is big. The fastest thing known is light, yet it takes over four years for light to reach our nearest neighboring star. When NASA's Voyager spacecraft left our solar system is was traveling around 37- thousand mph. At that rate it couldn't reach the nearest star until after 80-thousand years. If we want to cruise to other stars within comfortable time spans (say, less than a term in Congress), we have to figure out a way to go faster than light. The need to manipulate mass and spacetime coupling: This need is less obvious than the light speed issue. The problem is fuel, or more specifically, rocket propellant. Unlike a car that has the road to push against, or an airplane that has the air to push against, rockets don't have roads or air in space. Rockets have to carry along all the mass that they'll need to push against. To circumvent this problem, we need to find a way to interact with spacetime itself to induce propulsive forces without using propellant. This implies that we'll need to find a way to alter a vehicle's inertia, its gravitational field, or its connectivity to the structure of spacetime itself.

58. NASA Jet Propulsion Laboratory Technical Reports Server (JPLTRS) V2.0 enter 'propulsion' into search and get 100+ reports http://techreports.jpl.nasa.gov/

Database Update: Total Number of Online Reports: Quick Links CL #98-1091 What is the JPLTRS? The Jet Propulsion Laboratory Technical Report Server is a database of Abstracts, Citations and full text Technical Reports written by and for the scientific and technical community. For further information on the JPLTRS, please see our Quick Start Tutorial Fact Sheet , and Frequently Asked Questions (FAQ) Accessing the JPL Technical Report Database Technical reports may be accessed via the following interfaces: Keyword Search of Technical Reports NOTE: The link 'Return to NTRS' on the search results will return to the NASA TRS website. Use the browser 'Back' button to return to the JPL TRS website. Year Document Type Quantity Abstracts Citations Abstracts Citations ... Citations Full text Technical Reports are available in Portable Document Format (PDF). To view PDF files, download Adobe Acrobat Reader Related Technical Report Systems NASA Technical Reports Server Related NASA Technical Report Servers: Ames Research Center Center for AeroSpace Information Dryden Flight Research Center Glenn Research Center ... Stennis Space Center (Formerly the TDA Progress Report) JPL Publications (410 series) The Galileo Messenger Miscellaneous Publications

59. JPL Education Gateway Schools Enroll in JPL 101 Teachers had a blast with the launch of the NASA ExplorerSchools program this summer at NASA s Jet propulsion Laboratory, Pasadena http://education.jpl.nasa.gov/

+ View the NASA Education Portal Search JPL Teachers U.S. Centennial of Flight Commission Presents, The Weather Contest of the Century! Students Webcast Lectures on NASA Robotics for Research and Exploration NASA Explorer Schools Recruitment Program Takes Flight NASA has launched the application season for its NASA Explorer Schools (NES) Program. Schools from across the country are eligible to apply online for an opportunity to partner with NASA in a program designed to bring engaging mathematics, science and technology learning to educators, students and families. + Read More + Past Stories NASA Student Involvement Program competition deadlines approaching There is still time to participate in the NASA Student Involvement Program (NSIP) competition. Students in grades K-12 can complete research projects in numerous categories linked to NASA's missions of exploration and discovery. Entries are judged at NASA centers across the country. High school winners win a trip to the NSIP National Symposium, hosted by a different NASA center each year. + Read More NASA Explorer Schools Enroll in JPL 101 Teachers had a blast with the launch of the NASA Explorer Schools program this summer at NASA's Jet Propulsion Laboratory, Pasadena, Calif.

60. Electric Propulsion - University Of Michigan Plasmadynamics & Electric Propulsio The Plasmadynamics and Electric propulsion Laboratory(PEPL) at the University of Michigan. http://www.engin.umich.edu/dept/aero/spacelab/

Home Affiliations Diagnostics Facilities ... Review the papers from the 2003 JPC. W elcome to the Plasmadynamics and Electric Propulsion Laboratory (PEPL) at the University of Michigan Department of Aerospace Engineering . The lab was founded in 1992 under the direction of Professor Alec Gallimore and since that time has been embarked on an experimental and theoretical program with the following goals: 1) To make electric propulsion (EP) devices more efficient and of better performance; 2) To understand spacecraft integration issues that could impede the widespread use of these devices on scientific, commercial, and military spacecraft; and 3) To identify non-propulsion applications of EP systems (e.g., plasma processing, space-plasma simulation). The centerpiece of the laboratory is the large vacuum test facility that was built in the early 1960s by the Bendix corporation and was later donated to the university in 1982. This cylindrical stainless-steel clad tank, which is 9 m long and 6 m in diameter, is the largest vacuum facility of its kind at any university in the nation. At high-vacuum, the chamber employs seven cryopumps, with a combined pumping speed of 500,000 l/s on air, and 240,000 l/s on xenon. University of Michigan Contact the PEPL Director or the Webmaster Last Revised: 03/08/04 02:39 PM URL:

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