61. Odyssey Magnetic Levitation Challenge 8 Maglev Test Track. Teacher Manual. Student Worksheets. Odyssey magnetic levitation Challenge. magnetic levitation Challenge (Grades 610). http://www.kelvin.com/teod_maglev.html

Each System Includes: Magnetic Levitation Challenge Software Cable Assembly with 6 sensors to fit a 8' track 8' Maglev Test Track Teacher Manual Student Worksheets Odyssey Magnetic Levitation Challenge This activity challenges students to design and construct a magnetic levitation vehicle that will travel successfully along a magnetic levitation track. This challenge enables students to design several different types of vehicles using a variety of materials. The goal is to build a vehicle that will travel as fast as possible along a test tract. The software will monitor and display the acceleration of the vehicle between each sensor. This will produce an acceleration curve for the entire test run. Final Speed will be displayed in feet per second and miles per hour. This challenge offers students an opportunity to understand the mystery of magnetic levitation. Magnetic Levitation Challenge (Grades 6-10) Magnetic Levitation Challenge Complete Package (includes PC, 17" LCD Monitor and Pre-loaded Odyssey Software)

62. WONDERMAGNET.COM - NdFeB Magnets, Magnet Wire, Books, Weird Science, Needful Thi levitation, superconductors, ferrofluid, diamagnetism, Halbach arrays, how to view a magnetic field, and much more! Magnet Science FAQs. http://www.wondermagnet.com/

FF Main Products Discussion Board Magnet FAQ ... Email "IT IS WISE TO INVEST IN STRONG MAGNETS" Click REFRESH on your browser to load another cool magnet image! OUR NEWEST PAGE Diamagnetic Levitation 3 different version of the classic diamagnetic levitation experiment levitating magnets over carbon-graphite and bismuth, and levitating carbon-graphite over magnets! Great science experiment idea. OUR NEWEST PRODUCT Ferrofluid One of the coolest science experiments ever! Ferrofluid takes on the shape of a magnetic field applied to it, and lets you visualize moving magnetic fields in 3 dimensions! Other amazing properties too. FUN STUFF to do here: Magnet Science Experiments Check out a variety of very cool science experiments using magnets! Levitation, superconductors, ferrofluid, diamagnetism, Halbach arrays, how to view a magnetic field, and much more! Magnet Science FAQs What exactly IS that force you feel with a magnet, anyway? Concise explanations of magnetic fields and field lines, how magnets are made, magnet formulations and their properties, how to measure them, and more! Magnet Uses and Demo Images See the incredible variety of uses that our customers have put our magnets to, and submit your own magnet usage ideas! And check out a whole bunch of cool demonstration images showing magnets in many configurations.

63. WONDERMAGNET.COM - NdFeB Magnets, Magnet Wire, Books, Weird Science, Needful Thi FUN WITH SUPERCONDUCTORS! magnetic levitation using a superconductor is one of the most dramatic physics experiments ever. Amazingly http://www.wondermagnet.com/superconductor.html

FF Main Products Discussion Board Magnet FAQ ... Email FUN WITH SUPERCONDUCTORS! Magnetic levitation using a superconductor is one of the most dramatic physics experiments ever. Amazingly, we found a small manufacturer of superconducting pellets right here in town. You can purchase this kit on our Web Shopping Cart . The kit includes 1 superconducting ceramic disc, about 1" diameter, an excellent instruction manual, a convenient styrofoam container(good for holding liquid nitrogen during the demonstration), 1 pair of plastic tweezers, and one 3/16" NdFeB magnet. In order to make this work you'll need to get your own liquid Nitrogen. This must be obtained locally. Of course, even high temperature superconductors need to be very cold. Liquid Nitrogen is required to chill the supeconductor to its critical tempurature. Surprisingly, liquid Nitrogen is very easy to come by. It is has many common applications, and is widely available and inexpensive. Any supply shop that sells CO2 and welding gasses should have it. Although special containers are made for the safe storage/shipment of liquid Nitrogen, many shops will be more than happy to fill your stainless steel thermos bottle for a couple bucks. It's very important, if you acquire some in a thermos bottle, or other container that you understand the dangers and safe handling procedures. You do not want liquid Nitrogen to come into contact with your body!

64. Magnetic Levitation To cause diamagnetic levitation, both the diamagnetic material and magnetic material must produce a combined repulsive force to overcome the force of gravity. http://www.rare-earth-magnets.com/magnet_university/magnetic_levitation.htm

Up Diamagnetism A diamagnetic substance is one whose atoms have no permanent magnetic dipole moment. When an external magnetic field is applied to a diamagnetic substance such as bismuth or silver a weak magnetic dipole moment is induced in the direction opposite the applied field. All materials are actually diamagnetic, in that a weak repulsive force is generated by in a magnetic field by the current of the orbiting electron. Some materials, however, have stronger paramagnetic qualities that overcome their natural diamagnetic qualities. These paramagnetic materials, such as iron and nickel, have unpaired electrons. Some Diamagnetic Elements Bismuth Mercury Silver Carbon Lead Copper Some Ferromagnetic Elements Iron Nickel Cobalt G adolinium Dysprosium Some Paramagnetic Elements Uranium Platinum Aluminum Sodium Oxygen Diamagnetic Levitation Diamagnetic Levitation occurs by bringing a diamagnetic material in close proximity to material that produces a magnetic field. The diamagnetic material will repel the material producing the magnetic field. Generally, however, this repulsive force is not strong enough to overcome the force of gravity on the Earth's surface. To cause diamagnetic levitation, both the diamagnetic material and magnetic material must produce a combined repulsive force to overcome the force of gravity. There are a number of ways to achieve this: Placing Diamagnetic Material in Strong Electromagnetic Fields Modern Electromagnets are capable of producing extremely strong magnetic fields. These electromagnets have been used to levitate many diamagnetic materials including weekly diamagnetic materials such as organic matter. A popular educational demonstration involves the placement of small frogs into a strong static electromagnetic field. The frog, being composed of primarily water, acts as a week diamagnet and is levitated.

65. Physics: Electromagnetism: Magnetic Levitation Science Directory magnetic levitation. Pages 1 2 . magnetic levitation. Spacetransportation.org - Science Directory - Last Update Fri Apr 23 2004. http://www.spacetransportation.org/Physics/Electromagnetism/Magnetic_Levitation/

Science Directory - Magnetic Levitation Home Search Add a Site Modify a Site ... Links SEARCH ADVANCED SEARCH RANDOM LINK Find this: CUSTOM LINKS Yoursite Another Area Somewhere else Home ... Electromagnetism : Magnetic Levitation Transportation Publications Barry's Magnetic Levitation Plans - How to design a magnetic levitation demonstrator using photodetectors and electronics to control an electromagnet. Fun with Diamagnetic Levitation - A simple how-to for creating your own diamagnetic levitation experiments, complete with demonstration images and thorough explanations. Fundamentals of Maglev - Basic physics, types of maglev, how they float, and issues related to Maglev Trains. Magnetic Levitation Clearly Explained - A quick guide introducing magnetic levitation including definitions and history. High Speed Ground Transportation Association - Organization working to expand high speed ground transportation world-wide. Maglev and Other Research of Dr. Marc T. Thompson - Research Interests of Marc T. Thompson, Ph.D., System Design Consultant and Professor of Electrical Engineering. Maglev Quicklinks - Links to systems currently operational or under development.

66. Magnetic Levitation. The Columbia Encyclopedia, Sixth Edition. 2001 2001. magnetic levitation. or maglev (m g´l v) (KEY) , support and propulsion of objects or vehicles by the use of magnets. The http://www.bartleby.com/65/ma/magnet-l.html

Select Search All Bartleby.com All Reference Columbia Encyclopedia World History Encyclopedia Cultural Literacy World Factbook Columbia Gazetteer American Heritage Coll. Dictionary Roget's Thesauri Roget's II: Thesaurus Roget's Int'l Thesaurus Quotations Bartlett's Quotations Columbia Quotations Simpson's Quotations Respectfully Quoted English Usage Modern Usage American English Fowler's King's English Strunk's Style Mencken's Language Cambridge History The King James Bible Oxford Shakespeare Gray's Anatomy Farmer's Cookbook Post's Etiquette Bulfinch's Mythology Frazer's Golden Bough All Verse Anthologies Dickinson, E. Eliot, T.S. Frost, R. Hopkins, G.M. Keats, J. Lawrence, D.H. Masters, E.L. Sandburg, C. Sassoon, S. Whitman, W. Wordsworth, W. Yeats, W.B. All Nonfiction Harvard Classics American Essays Einstein's Relativity Grant, U.S. Roosevelt, T. Wells's History Presidential Inaugurals All Fiction Shelf of Fiction Ghost Stories Short Stories Shaw, G.B. Stein, G. Stevenson, R.L. Wells, H.G. Reference Columbia Encyclopedia PREVIOUS NEXT ... BIBLIOGRAPHIC RECORD The Columbia Encyclopedia, Sixth Edition. magnetic levitation or maglev (m v) ( KEY Translev

67. Magnetic Levitation. The New Dictionary Of Cultural Literacy, Third Edition. 200 magnetic levitation. The New Dictionary of Cultural Literacy, Third Edition. 2002. 2002. magnetic levitation. A process by which a http://www.bartleby.com/59/23/magneticlevi.html

Select Search All Bartleby.com All Reference Columbia Encyclopedia World History Encyclopedia Cultural Literacy World Factbook Columbia Gazetteer American Heritage Coll. Dictionary Roget's Thesauri Roget's II: Thesaurus Roget's Int'l Thesaurus Quotations Bartlett's Quotations Columbia Quotations Simpson's Quotations Respectfully Quoted English Usage Modern Usage American English Fowler's King's English Strunk's Style Mencken's Language Cambridge History The King James Bible Oxford Shakespeare Gray's Anatomy Farmer's Cookbook Post's Etiquette Bulfinch's Mythology Frazer's Golden Bough All Verse Anthologies Dickinson, E. Eliot, T.S. Frost, R. Hopkins, G.M. Keats, J. Lawrence, D.H. Masters, E.L. Sandburg, C. Sassoon, S. Whitman, W. Wordsworth, W. Yeats, W.B. All Nonfiction Harvard Classics American Essays Einstein's Relativity Grant, U.S. Roosevelt, T. Wells's History Presidential Inaugurals All Fiction Shelf of Fiction Ghost Stories Short Stories Shaw, G.B. Stein, G. Stevenson, R.L. Wells, H.G. Reference The New Dictionary of Cultural Literacy Technology PREVIOUS ... BIBLIOGRAPHIC RECORD The New Dictionary of Cultural Literacy, Third Edition. magnetic levitation A process by which a magnet moving over a piece of metal causes electric currents to flow in the metal that, in turn, produce

68. Floating Frogs snip. With the advent of hightemperature superconductors, the magnetic levitation of nonmagnetic material became and easy tabletop demonstration too. http://www.raven1.net/flotfrog.htm

Site Index Page Floating Frogs by Corinna Wu (This was demonstrated on both Dan Rather's CBS News and CNN in April of 1997) Asked to think of an animal that can fly, most people don't picture a frog. Nonetheless, in April 1997, a team of British and Dutch researchers announced success in lavitating a live frog by using a powerful magnet. According to one of the human observers, the frog emerged from the flight unharmed and "happily joined" his fellow frogs in a biology department. The amusing video image of the frog hovering in midair circulated widely and captured many people's fancy.... [snip] The seeming ability to defy gravity is what delights most people, but the demonstration highlights a more subtle idea that is often overlooked in everyday life - that many objects considered nonmagnetic do, in fact, possess magnetic properties. The water, proteins, and organic molecules that make up frogs and other living things are diamagnetic, which means that in the presence of a magnetic field, they become weakly magnetized in such a way as to oppose the applied field. Diamagnetism is what allowed the researchers to float the frog. Scientists are now looking into this phenomenon to simulate zero gravity and thus provide a low-cost substitute for experiments now possible only in outer space. They plan to tease out how the absence of gravity affects biological systems, especially developing embryos.

69. Understanding levitation and pass through the non magnetic tube.The purpose of this exercise is to prove that a repelling magnetic field has levitation capabilities all be http://magnetic.propulsion.mysite.freeserve.com/page3.html

Understanding Introduction The basics Understanding Jorcarna Light Theory Conclusion Magnetic Circuit ... New Beginning Making of Jorcarna IF we put two repelling magnets inside a none magnetic tube then it is feasibly possible to levitate the top magnet with a fixed load on top of the top magnet. The tube is needed as a guide because both magnets are being bombarded by magnetic flux in all directions thus stopping the magnets repelling sideways or flipping over to then attract each other. At this stage it is important to note, that the magnetic flux repel only on the solid magnets to create levitation and pass through the non magnetic tube.The purpose of this exercise is to prove that a repelling magnetic field has levitation capabilities all be it we are using two separate platforms the base of the tube (ground)and the free moving levitated magnet. Much the same using the man in the picture pushing a wheelbarrow he and the barrow as one structure and the ground to push off is the other structure. But what JORCARNA can do is push one structure from within the same structure defying Newton`s third law. The picture showing a U tube is the most difficult to understand e.g

70. Levitation Experiments Enabled By Oxford Instruments Reference 1 A.Catherall, L.Eaves, P.King S.Booth. magnetic levitation Floating gold in cryogenic oxygen. Nature 422, 579 (2003). ends -. http://www.oxinst.com/SCNNWP666.htm

drawHeader('4', 'FFC800', 'image_superconductivity.jpg', 'superconductivity', ''); Levitation experiments enabled by Oxford Instruments Radical superconducting magnet helps scientists bend the rules of gravity A new type of high field superconducting magnet from Oxford Instruments has enabled physicists at the University of Nottingham to balance the force of gravity and levitate heavy and dense materials such as lead, gold and diamonds. The patented Minimum Condensed Volume™ (MCV™) Cryofree™ superconducting magnet, developed and manufactured by Oxford Instruments in collaboration with the University of Nottingham, is the first of its kind in the world. Unlike conventional superconducting magnets, the MCV magnet never needs to be refilled with liquid helium and yet can generate a field over 300,000 times stronger than the Earth’s magnetic field. The magnet is also designed with a much shorter bore than standard versions that is maintained at room temperature. "This makes the magnet very easy to use and ideal to study the effects of simulated zero-gravity conditions on growing seedlings, for example - research which has relevance to future manned space exploration," said Professor Laurence Eaves, Nottingham. The Nottingham team have published their findings in the latest issue of Nature . The experiment is based on the magneto-Archimedes effect, using cold (100 K) oxygen gas in the magnetic field to levitate objects, such as diamonds, that are dense enough to sink in water. Magnetised liquid oxygen provides even greater buoyancy up to 340 times that of water, enabling even heavy metals, such as gold and platinum, to be levitated.

71. Guardian Unlimited | Life | Probably The World's Fastest Train Maglev shorthand for magnetic levitation - is basically a train that floats on an electromagnetic cushion, which is propelled along a guideway at incredible http://www.guardian.co.uk/life/feature/story/0,13026,1122916,00.html

@import url(/external/styles/global/0,14250,,00.css); Sign in Register Go to: Guardian Unlimited home UK news World news Archive search Arts Books Business EducationGuardian.co.uk Film Football Jobs Life MediaGuardian.co.uk Money The Observer Online Politics Shopping SocietyGuardian.co.uk Sport Talk Travel Audio Email services Special reports The Guardian The weblog The informer The northerner The wrap Advertising guide Crossword Dating Headline service Syndication services Events / offers Help / contacts Information Living our values Newsroom Reader Offers Style guide Travel offers TV listings Weather Web guides Working at GNL Guardian Weekly Money Observer Home This week Dispatch Opinion ... Talk Search Probably the world's fastest train China's superfast express launches next week. Sean Dodson reports on a revolution in public transport Thursday January 15, 2004 The Guardian On the southern bank of the Yangtze river, about 30km north of Shanghai, lies Pudong international airport. Since it opened its first terminal in 1999 it has served China's irrepressible 21st-century megalopolis with nothing more futuristic than a fleet of taxis and a schedule of buses. If you are lucky, and the roads are clear, you can be in the city centre in 40 minutes. But as of next week, to coincide with the Chinese New Year, passengers arriving at Pudong will be able to reach the centre of town in a fraction of the time.

72. Howstuffworks "How Maglev Trains Work" A commercial magnetic levitation train is currently doing test runs in China. Find out how maglev trains float above the. http://travel.howstuffworks.com/maglev-train.htm

ComputerStuff AutoStuff ElectronicsStuff ScienceStuff ... PeopleStuff Top Subjects Airplanes Bridges Rotary Engines Space Shuttles ... Gas Turbine Engines Sponsored By: Categories Destinations Planning ShortStuff Transportation ... Hilton Toronto Airport Explore Stuff Lidrock.com Big List of Articles Get the Newsletter Search HSW and the Web Search Google Main Travel Transportation How Maglev Trains Work by Kevin Bonsor Table of Contents Introduction to How Maglev Trains Will Work Electromagnetic Propulsion In Development Lots More Information Shop or Compare Prices If you've been to an airport lately, you've probably noticed that air travel is becoming more and more congested. Despite frequent delays, airplanes still provide the fastest way to travel hundreds or thousands of miles. Passenger air travel revolutionized the transportation industry in the last century, letting people traverse great distances in a matter of hours instead of days or weeks. The only alternatives to airplanes feet, cars, buses, boats and conventional trains are just too slow for today's fast-paced society. However, there is a new form of transportation on the horizon that will revolutionize transportation of the 21st century the way airplanes did in the 20th century. Photo courtesy Railway Technical Research Institute Traveling at speeds of up to 300 mph (500 kph), maglev trains could begin connecting distant cities as soon as 2004.

73. Magnetic Levitation Transportation Issues Hearing on. magnetic levitation Transportation Issues. BACKGROUND. The Subcommittee will conduct a hearing to examine magnetic levitation transportation issues. http://www.house.gov/transportation/rail/06-21-01/06-21-01memo.html

The Subcommittee on Railroads Hearing on Magnetic Levitation Transportation Issues TABLE OF CONTENTS Click on Section BACKGROUND WITNESSES BACKGROUND The Subcommittee will conduct a hearing to examine magnetic levitation transportation issues. Magnetic levitation (maglev) is an advanced technology in which magnetic forces lift, propel, and guide a vehicle over a guideway. Utilizing state-of-the-art electric power and control systems, this configuration eliminates contact between vehicle and guideway. Maglev systems, although not yet in revenue service, have been demonstrated to operate at speeds around 300 miles per hour (mph). High-speed passenger trains such as the European TGV and ICE systems, using flanged wheels and steel rails, have also reached speeds approaching the 300 mph level on dedicated rights-of-way. Because of its high acceleration and cruising speed, maglev offers competitive trip-time savings to auto and aviation modes in the 40 to 600-mile travel markets. By comparison, current U.S. passenger trains such as the Amtrak Metroliners operate at up to 125 mph on parts of the Northeast Corridor. The new Acela high-speed trains used by Amtrak are capable of 150 mph, but in most areas except the newly electrified New Haven-Boston segment of the Northeast Corridor, they are limited to about 130 mph by the infrastructure. The Maglev Deployment Program in TEA 21 In 1998 Congress passed the "Transportation Equity Act for the 21st Century" (TEA 21), which created a National Magnetic Levitation Transportation Technology Deployment Program. The program is to demonstrate high-speed maglev technology in commercial service through a project of about 40 miles in length.

74. The Levitron Centre - Exciting Innovative Toy - Magnetic Levitation - Anti-gravi It can achieve up to five minutes of sustained levitation per spin, using nothing more than permanent magnets something they said couldn t be done! http://www.ishop.co.uk/cgi-bin/referal-track.cgi?shop_id=6&refer_id=2000

75. Wiley::Superconducting Levitation: Applications To Bearings And Magnetic Transpo on superconductivity, and demonstrates the key roles that magnetics, mechanics and dynamics play in the complete understanding of magnetic levitation and its http://www.wiley.com/WileyCDA/WileyTitle/productCd-0471559253.html

Shopping Cart My Account Help Contact Us By Keyword By Title By Author By ISBN By ISSN Wiley Superconducting Levitation: Applications to Bearings and Magnetic Transportation Related Subjects Electrochemistry Electromagnetic Compatibility General Electromagnetic Theory Noise in Electronic Systems ... General Materials Science Related Titles More By This Author Applied Dynamics: With Applications to Multibody and Mechatronic Systems (Hardcover) Chaotic and Fractal Dynamics: An Introduction for Applied Scientists and Engineers (Hardcover) Chaotic Vibrations: An Introduction for Applied Scientists and Engineers (Paperback) Classical Field Theory: Electromagnetism and Gravitation (Hardcover) by Francis E. Low An Introduction to Modern Electronics (Hardcover) by William L. Faissler by Claude Cohen-Tannoudji, Jacques Dupont-Roc, Gilbert Grynberg Differential Forms in Electromagnetics (Hardcover) by Ismo V. Lindell by Ruth W. Chabay, Bruce A. Sherwood Join a Superconducting Levitation: Applications to Bearings and Magnetic Transportation Francis C. Moon

76. Relaxa 1 By SAP [English] SAP Relaxa 1, magnetic levitation antivibration base for CDs, DVDs, LaserDiscs, CDRs and all kind of HiFi components, test on TNT-Audio - Internet HiFi review. http://www.tnt-audio.com/accessories/relaxa1_e.html

Home Who we are Listening tests HiFi topics ... Inter.Views SAP Relaxa 1 Magnetic levitation base [Italian version] You are here > Home Listening tests Accessories Product: magnetic levitation antivibration base Relaxa 1 by SAP SAP - Italy USA distributor: Blue Cow Audio 6305 Willowfield Way - Springfield, VA 22150 Approx. price: 600 $/620 Euro (your mileage may vary) Reviewer: Lucio Cadeddu Reviewed: December, 2001 Many audiophiles with a technical background have thought, at least once, of designing a magnetic levitation support for their HiFi components. It is sufficient to have a look at newsgroups and HiFi Forums to see how many have tried this (unsuccessfully). The pluses of such an approach are two-fold: first of all, a completely "levitated" base will completely decouple the HiFi component from the HiFi rack or table, minimizing vibrations by contact. Secondly, the idea of levitation has always fascinated scientists and techno-minded researchers since it reminded one of the greatest man's dreams: to fly. Sadly, the task isn't all that easy: first of all a full magnetic levitation with passive magnets isn't easy to achieve (actually it's impossible, see later) because the suspended base tries to escape from the equilibrium position with apparent no reason, secondly you need strong magnets and, hence, magnetic fields. These may be not welcomed near phono cartridges, phono stages and CD players, for example.

77. Cookies Required to compare the pros and cons of levitation bearings based on the first arrangement with conventional mechanical bearings and active magnetic bearings, and http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=VIRT0300000

78. Magnetic Levitation Train - NIE: Newspapers In Education magnetic levitation Train. Shanghai, China may be the world s first city to build a commercial magnetic levitation train. German http://www.cincinnati.com/nie/archive/12-26-00/

nie@enquirer.com NIE TOOLS Weekly Lesson Lesson Archive About NIE Search Lessons ... FREE Papers FOR STUDENTS Homework Helper Battleship Maze Tic Tac Toe ... State Capitals FOR TEACHERS Online Lessons FOR PARENTS NIE for parents Homework Helper Grade Level: 7-12 Subject: Physical Science Lesson for December 26, 2000 Magnetic Levitation Train Shanghai, China may be the world's first city to build a commercial magnetic levitation train. German consortium Transrapid is pursuing the contract to build the controversial "Maglev" high-speed train. Germany has invested decades of research and billions of dollars into developing Maglev technology, as has Japan, though the technology has yet to be put to commercial use. Maglev uses powerful magnets to hold a train a few millimeters from the track and propel it with little noise or vibration. In an April time trial, a Japanese test Maglev set a speed record of 343 mph. Germany has its own test Maglev, which a delighted Chinese Premier Zhu Rongji rode in July. Shanghai is expected to sign a contract with Transrapid as early as December, 2000 for a 20- to 25-mile line to the 1-year-old Shanghai Pudong International Airport. The venture could cost more than $1 billion.

79. Physics Demonstrations - Magnetism The construction of a magnetic levitation apparatus is difficult because large magnetic fields are required over a relatively small volume, and thus the coils http://sprott.physics.wisc.edu/demobook/chapter5.htm

MAGNETISM Magnetism brings to mind horseshoe magnets and iron filings. However, magnetism is very closely related to electricity. In 1819 the Danish physicist and chemist, Hans Christian Oersted (1777-1851), during a lecture demonstration, observed that an electric current can affect a magnetic compass needle and thus united what until then had been viewed as two distinct subjects[1]. The electric motor is the modern implementation of this phenomenon. In the 1820's Michael Faraday (1791-1867) in England and Joseph Henry (1797-1878) in the United States independently demonstrated that a time-varying magnetic field can produce an electric current. Electric generators and eventually a world dominated by electronics was the result. The same discovery was previously made in 1802 by an Italian jurist, Gian Dominico Romognosi, but was overlooked because it was published in a newspaper, Gazetta de Trentino , rather than in a scholarly journal. REFERENCE 1. J. Nelson, Am. Journ. Phys. Levitated Ball Contributed by Professor Donald W. Kerst

80. Superconducting Maglev Project Automatically transferred after 10 seconds later. Superconducting Maglev Project. Superconducting magnetic levitation System (MAGLEV). http://www.rtri.or.jp/rd/maglev/maglev_E.html

Home Page of Superconducting Maglev Project was transferred to URL=http://www.rtri.or.jp/index.html Automatically transferred after 10 seconds later Superconducting Maglev Project Superconducting Magnetic Levitation System (MAGLEV) www-admin@rtri.or.jp RTRI Home Page

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