21. Magnetic Fields, Magnetic Forces, And Electromagnetic Induction Magnetic fields and Magnetic Forces. Some metals can be turned in to temporary magnetsby bringing them close to a magnet; magnetism is induced by aligning http://www.cyberclassrooms.net/~pschweiger/magnetism.html

Home Page of Peggy E. Schweiger Magnetic Fields and Magnetic Forces Properties of magnets: A magnet has polarity - it has a north and a south pole; you cannot isolate the north or the south pole (there is no magnetic monopole) Like poles repel; unlike poles attract A compass is a suspended magnet (its north pole is attracted to a magnetic south pole); the earth’s magnetic south pole is within 200 miles of the earth’s geographic north pole (that is why a compass points "north") Some metals can be turned in to temporary magnets by bringing them close to a magnet; magnetism is induced by aligning areas called domains within a magnetic field Permanent magnets are formed of metallic alloys or metals such as iron, nickel, or cobat Magnetic field (symbol is B and SI unit is the Tesla or T the environment around a magnet in which the magnetic forces act. Another common unit for magnetic field strength is the gauss (G) ; 1 G = 1 x 10 Magnetic field lines they represent the area around a magnet; magnetic field lines outside of the magnet flow from the north to the south pole Domain Atoms of ferromagnetic materials act in groups called domains; atomic magnets in each domain are aligned so that each domain is a microscopic bar magnet; the domains align themselves with an external magnetic field. Each domain behaves like a tiny magnet and has a north and a south pole. In unmagnetized materials, the domains are randomly arranged. In magnetized materials, the domains are aligned. Anything that randomizes the alignment of the domains destroys the magnetic properties of a material (dropping a magnet or heating it)

22. Magnetic Fields, Magnetic Forces, And Electromagnetic Induction Sample Problems Home Page of Peggy E. Schweiger. Magnetic fields and Forces Homework.A current. Ans 125 V; 4 A. magnetism Notes. magnetism Sample Problems. http://www.cyberclassrooms.net/~pschweiger/magnetismhw.html

Home Page of Peggy E. Schweiger Magnetic Fields and Forces Homework A wire 0.10 m long carrying a current of 2 A is at right angles to a magnetic field. The force on the wire is 0.04 N. What is the strength of the magnetic field? What would its strength be if the wire is at an angle of 35 to the field? Ans: 0.20 T; 0.35 T A wire 0.50 m long carrying a current of 8 A is at an angle of 15 to a 0.40 T field. What is the magnetic force exerted on the wire? Ans: 0.41 N A beam of electrons moves at right angles to a 0.60 T field. The electrons have a velocity of 2.5 x 10 m/s. What force acts on the electrons? What force acts if the beam of electrons move at an angle of 45 to the field? Ans: 2.4 x 10 N; 1.7 x 10 N A proton moves at right angles to a 0.003 T field directed out of the page. The proton moves from right to left with a speed of 5 x 10 m/s. What is the magnitude and the direction of the force the proton experiences? Ans: 2.4 x 10 N, towards the top of the page Two parallel wires separated by 150 cm carry currents of 5 A and 15 A in opposite directions. What is the strength of the net magnetic field between the wires at a distance of 40 cm from the 5 A carrying wire? Distance is measured between the wires. Ans: 5.23 x 10

23. Fizzics Fizzle Advanced Electricity And Magnetism Magnetic Bookmark This Page on Your Contents Bar! Magnetic fields. electricfield). Motion of Charged Particles in Magnetic fields. You know http://hyperion.advanced.org/16600/advanced/magneticfields.shtml

24. Fizzics Fizzle Advanced Electricity And Magnetism Magnetic Bookmark This Page on Your Contents Bar! Magnetic fields of Currents. So, we willnow discuss how these B fields as set up. Magnetic fields of a Current Element. http://hyperion.advanced.org/16600/advanced/currentmagneticfields.shtml

25. Solar Magnetism And Variability: Solar Surface Magnetic Fields B. Solar Surface Magnetic fields. The lower solar Postscript File (352kB). 2. Photospheric Magnetic fields. The essential physical http://www.hao.ucar.edu/public/research/spmf/smv_b.html

B. Solar Surface Magnetic Fields The lower solar photosphere provides the optimal location for measuring vector magnetic fields using the Zeeman effect, and for detecting the Doppler velocity and intensity fluctuations which characterize the five-minute solar oscillations (p-modes). Although they are detected at the photosphere, the five-minute oscillations propagate throughout the solar interior. A careful analysis of their amplitudes and phases permits one to make inferences about the sub-surface structure of emerging, or fully emerged, active region complexes. 1. Local Helioseismology Local helioseismology refers to a broad range of research activities, which are motivated by the problem of determining how the sub-surface velocity and magnetic fields are encoded in the amplitudes and phases of the p-modes. An important component of these efforts is the forward modeling of p- mode-sunspot interactions. Graham Barnes and NCAR Affiliate Scientist Paul Cally (both, Monash University, Melbourne, Australia) have spent the last year analyzing some of their numerical simulations of the interaction of a single p-mode with a solar surface magnetic flux concentration. The essential features of their numerical modeling are depicted in Figure 4. They find that the sunspot is very effective in converting a fraction of the incident p-mode into magnetic field-guided slow magnetoatmospheric waves, and in transmitting/scattering back into the quiet Sun different p-modes which share a common frequency with the driving p-mode. The latter process is referred to as "mode-mixing," while the former is in large part thought to be responsible for the ubiquitous absorption of p-modes by sunspots.

26. Magnetism And Magnetic Physics An elementary primer on magnetism and magnetic physics. Contains questions frequently asked about Category Science Physics Electromagnetism...... and magnetism is light, which is known to physicists as an electromagnetic wave.Light waves are oscillating patterns of electric and magnetic fields, http://www.wondermagnet.com/dev/magfaq.html

FF Main Products FAQ Info ... Email MAGNET AND MAGNETISM FAQ Here is some general information on magnetism and magnetic physics. We hope that you find this useful. You might also want to look at our discussion board for other information and to see what other folks have to say. What is a magnetic field? What are magnetic field lines? What is the north pole of a magnet and how can I identify it? How strong is the magnetic field at a given distance from the magnet? How are magnetic fields measured? ... Why won't my perpetual motion machine work? What is a magnetic field? What are magnetic field lines? Magnetic fields are historically described in terms of their effect on electric charges. A moving electric charge, such as an electron, will accelerate in the presence of a magnetic field, causing it to change velocity and its direction of travel. This is, for example, the principle used in televisions, computer monitors, and other devices with CRTs ( cathode-ray tubes ). In a CRT, electrons are emitted from a hot filament. A voltage difference pulls these electrons from the filament to the picture screen. Electromagnets surrounding the tube cause these electrons to change direction, so they hit different locations on the screen. This is how it works: An electrically charged particle moving in a magnetic field will experience a force (known as the Lorentz force ) pushing it in a direction perpendicular to the magnetic field and the direction of motion: As a result of this force, the charged particle accelerates in the direction of the force (this is Newton's second law). In the diagram above the particle's trajectory will curve upward.

27. Magnetism And Magnetic Fields http://farside.ph.utexas.edu/~rfitzp/teaching/302l/lectures/node53.html

Next: Magnetism Up: lectures Previous: Worked Example 4: Energy Magnetism and magnetic fields Subsections Magnetism The Lorentz force Motion of a charged particle in a magnetic field The Hall effect ... Worked Example 2: Charged particle in magnetic field Richard Fitzpatrick 2002-05-19

28. Physics News 482, May 3, 2000 Angela Olinto (paper B7.1) of the University of Chicago (773702-8206) discussedthe idea of primordial magnetism, fields that might have existed at or shortly http://newton.ex.ac.uk/aip/physnews.482.html

Physics News 482, May 3, 2000 PHYSICS NEWS UPDATE The American Institute of Physics Bulletin of Physics News Number 482 May 3, 2000 by Phillip F. Schewe and Ben Stein Previous Next May 2000 Main page BEST MEASUREMENT OF THE GRAVITATIONAL CONSTANT. http://www.aps.org/meet/APR00/baps/vpr/layp11-03.html ; figures at www.aip.org/physnews/graphics astronomy gravity lasers ... forces MAGNETIC FIELDS ARE EVERYWHERE. The history of the universe is usually described in terms of the distribution of matter: first primordial knots, then clouds, galaxies, stars, and clusters. A parallel, and perhaps not unrelated, saga can be written for magnetic fields. Basically, Philipp Kronberg (416-978-4971) of the University of Toronto finds magnetic fields every place he has looked in the cosmos: within the Milky Way (where the fields are typically about 5 microgauss), in intergalactic areas within galaxy clusters (1-2 microgauss for the Coma cluster, 350 million light years away), and even outside clusters. The latter observations are brand new and were reported by Kronberg at the APS meeting ( http://www.aps.org/meet/APR00/baps/vpr/layb7-02.html

29. Bigchalk: HomeworkCentral: Magnetic Fields (Electricity & Magnetism) Policy. Lesson Plan Archives Science Physical Science Physics High School Electricity magnetism Magnetic fields. Electric http://www.bigchalk.com/cgi-bin/WebObjects/WOPortal.woa/Homework/Teacher/Resourc

Home About Us Newsletters My Products ... Product Info Center Email this page to a friend! K-5 Magnetic Fields document.write(''); document.write(''); document.write(''); document.write(''); Magneto-Hydrodynamic Drives Make your own Electrosphere The Magnetic Sun Privacy Policy ... Contact Us

30. Bigchalk: HomeworkCentral: Electricity & Magnetism (High School) Ohm's Law; Resistances in Series Parallel Circuits. MAGNETIC fields Electric Magnetic fields; Electricity magnetism; MagnetoHydrodynamic Drives; Magnets http://www.bigchalk.com/cgi-bin/WebObjects/WOPortal.woa/Homework/Lesson_Plan/Res

Home About Us Newsletters My Products ... Product Info Center Email this page to a friend! K-5 document.write(''); document.write(''); document.write(''); document.write(''); ELECTRICITY Electrochemistry Electron Current Flow Electrostatics ... Contact Us

31. AU Physics Demonstrations (Electricity/Magnetism-Magnetic Fields And Forces) Electricity/magnetism. Magnetic fields and forces. 5H10.20 Oersted'seffect 1 5H10.21 Oersted's effect 2 5H10.30 Magnet and iron http://www.physics.auburn.edu/~demo/em/5h/list_5h.htm

Magnetic fields and forces 5H10.20 Oersted's effect #1 5H10.21 Oersted's effect #2 5H10.30 Magnet and iron filings 5H20.10 Magnets on a pivot ... 5H50.10 Torque on Current Carrying Loop James Clark

32. AU Physics Demonstrations (Electricity/Magnetism-Electric Fields And Potential) Electricity/magnetism. Electric fields and potential. 5B10.10 Hairon end 5B10.25 Confetti 5B20.35 Faraday Cage 5B30.30 Lightning rod http://www.physics.auburn.edu/~demo/em/5b/list_5b.htm

Electric fields and potential 5B10.10 Hair on end 5B10.25 Confetti 5B20.35 Faraday Cage 5B30.30 Lightning rod James Clark

33. Electricity And Magnetism Demonstrations Hysteresis 5G40 Hysteresis loop on scope 5G40.10. Temperature and magnetism 5G50Curie point 5G50.10; Meissner effect 5G50.50. Magnetic fields and forces 5H http://buphy.bu.edu/~duffy/electricity.html

Electricity and Magnetism There are: 99 electricity and magnetism demonstrations 72 of which have brief descriptions and diagrams 15 more have pictures and complete descriptions Last update : 2 September 1997 Main topics: Electrostatics Electric fields and potential Capacitance Resistance ... Electromagnetic radiation Electrostatics Producing static charge Rods, fur, and silk Electrophorus Coulomb's law Rods and pivot Pith balls Electrostatic meters Electroscopes Conductors and Insulators Wire vs. string Acrylic and aluminum bars Induced charge Charging by induction Can attracted to charged rod 2 x 4 Metal rod attraction Deflection of a water stream ... Kelvin water dropper Electrostatic machines Wimshurst machine Van de Graaff generator Electric fields and potential Electric field Hair on end Van de Graaff streamers Confetti Fuzzy fur field tank Gauss' law Faraday ice pail Electroscope in a cage Radio in a cage Electrostatic potential Point and ball with van de Graaff Pinwheel Capacitance Capacitors Sample capacitors Parallel plate capacitor Dielectric Capacitor with dielectrics Dissectible condensor Energy stored in a capacitor Short a capacitor Light a bulb with a capacitor Lifting weight with a capacitor Resistance Resistance characteristics Resistor assortment Resistance model Variable resistor Dependence on length/area Resistivity and temperature Wire coil in liquid nitrogen Conduction in solutions Conduction through electrolytes Conduction in gases Jacob's ladder Electromotive force and current Electrolysis Electrolysis of water Cells and batteries

34. Magnetic Fields And Magnetism Magnetic fields and magnetism This page contains no details on this topic, butyou are welcome to contact our experts, follow the related links, or use the http://www.ems.psu.edu/info/explore/MagnetFields.html

35. Magnetism: Magnetic Poles, Forces, And Fields in this article Introduction; Magnetic Poles, Forces, and fields; Magnetic Materials;The Basis of magnetism; Evolution of Electromagnetic Theory; Bibliography. http://www.factmonster.com/ce6/sci/A0859426.html

Encyclopedia magnetism Magnetic Poles, Forces, and Fields Any object that exhibits magnetic properties is called a magnet. Every magnet has two points, or poles, where most of its strength is concentrated; these are designated as a north-seeking pole, or north pole, and a south-seeking pole, or south pole, because a suspended magnet tends to orient itself along a north-south line. Since a magnet has two poles, it is sometimes called a magnetic dipole, being analogous to an electric dipole, composed of two opposite charges. The like poles of different magnets repel each other, and the unlike poles attract each other. One remarkable property of magnets is that whenever a magnet is broken, a north pole will appear at one of the broken faces and a south pole at the other, such that each piece has its own north and south poles. It is impossible to isolate a single magnetic pole, regardless of how many times a magnet is broken or how small the fragments become. (The theoretical question as to the possible existence in any state of a single magnetic pole, called a monopole, is still considered open by physicists; experiments to date have failed to detect one.) From his study of magnetism, C. A. Coulomb in the 18th cent. found that the magnetic forces between two poles followed an inverse-square law of the same form as that describing the forces between electric charges. The law states that the force of attraction or repulsion between two magnetic poles is directly proportional to the product of the strengths of the poles and inversely proportional to the square of the distance between them.

36. EE Times - Researchers Explore Fractal Magnetism For Storage Magnetic polymer materials being studied at Ohio State University couldgive rise to a new form of magnetism characterized by fractal fields. http://www.eetimes.com/at/news/OEG20021218S0033

Introduction Indium Phosphide Nanostructure Ultrawideband Technology ... Companies to Watch Online Editions EE TIMES EE TIMES ASIA EE TIMES CHINA EE TIMES GERMANY ... EE TIMES UK Web Sites CommsDesign GaAsNET.com iApplianceWeb.com Microwave Engineering ... QuestLink Researchers explore fractal magnetism for storage By R. Colin Johnson EE Times December 19, 2002 (5:54 a.m. EST) Recent Articles Technology News India builds Tflops computing cluster Moto lab builds 4-Mbit 'nanocrystal' memory U.S. nanotech funding expected to hit $1 billion Composite anode could boost lithium batteries ... Archives Epstein and Miller earlier this year discovered photo-induced magnetism in a polymer. Now they predict that as the polymer's dimensions shrink, the magnetic dimension of the field will become fractal. The scientists believe these polymers will eventually yield light-controlled magnetic materials for a new breed of electronic storage devices. "The fractal dimension of our magnetic material describes the 'spins,' or unpaired electrons, as being aligned in fractal patterns. The magnetic fields that result from the fractal order of the spins will have a fractal shape near the fractal-shaped spin cluster," Epstein said. The farther from the spin cluster, "the magnetic fields are no longer fractal in shape." The repeating pattern forms an overlapping, crisscrossing growth of interlocked fields, said the researchers. These fields follow the laws of fractal dimensions rather than ordinary physics. "This interlocking fractal growth gives the magnetic field a unique kind of order, and as a result, the material would be called a fractal cluster glass," said Epstein.

37. EET Document Not Found Ohio — Magnetic polymer materials being studied at Ohio State University couldgive rise to a new form of magnetism characterized by fractal fields. http://www.eetimes.com/at/news/hpm/OEG20021218S0033

Introduction Indium Phosphide Nanostructure Ultrawideband Technology ... Companies to Watch Online Editions EE TIMES EE TIMES ASIA EE TIMES CHINA EE TIMES GERMANY ... EE TIMES UK Web Sites CommsDesign GaAsNET.com iApplianceWeb.com Microwave Engineering ... QuestLink We're sorry. The page that was requested does not exist. Please hit the back button on your browser to return to the last page you visited. Or explore any of our sections via the links to the left. Thank you for visiting EE Times. All material on this site Privacy Statement Hear R. Colin Johnson's interviews from which selected "Advanced Technology" articles were written. Listen to engineers and scientists describe what they're working on in their own words. This often means you'll be privy to many details not included in the print or online versions of the stories. Lo-Fi Playback Hi-Fi Playback Audio CDs Also visit NexGenLog : Next-generation developments in science and technology. A list of upcoming NetSeminars, plus a link to the archive Successful Strategies for Integrating BluetoothTM Into a Cellular Telephone Back to Basics . Oscilloscope Measurements Jitter Measurement for High-Speed Digital Transmission ... Archive

38. Subtle Magnetism, Torsion Fields And Spin Subtle magnetism Subtle magnetism, Torsion fields, Spin Research ArticlesExperiments and History How to build a spin detector by Dr Payne. http://www.buryl.com/spin/

39. ThinkQuest Library Of Entries Quintessential Concepts. magnetism, like electric fields produce both attractiveand repulsive forces. When an object is magnetized, two poles are created. http://library.thinkquest.org/23718/magnetism.html

Welcome to the ThinkQuest Internet Challenge of Entries The web site you have requested, Project Physics: Myth, Legend, Science , is one of over 4000 student created entries in our Library. Before using our Library, please be sure that you have read and agreed to our To learn more about ThinkQuest. You can browse other ThinkQuest Library Entries To proceed to Project Physics: Myth, Legend, Science click here Back to the Previous Page The Site you have Requested ... Project Physics: Myth, Legend, Science click here to view this site A ThinkQuest Internet Challenge 1998 Entry Click image for the Site Languages : Site Desciption Vectors, dimensions, laws of motion, sound, light, circuits, and other mysteries of physics are explained at this site. Illustrated with many Java demonstrations and animations which break up the otherwise dense text, this site is a virtual textbook of formulas and facts. If you find yourself strangely attracted to this site, be sure to check the section on Magnetism. Students Lisa Stuyvesant High School NY, United States

40. Electricity And Magnetism Name Date _. MAGNETICFIELDS. Background. A magnetic field is the area around a magnet http://www.galaxy.net/~k12/electric/fields.shtml

MAGNETIC FIELDS Background A magnetic field is the area around a magnet where its magnetic force can be felt. Materials Needed 1 bar magnet 1 compass Procedure 1. Place the magnet in the center of the next page. 2. Put the compass near one end of the magnet. Let the needle stop moving. Note the direction of the needle. Lift the compass and draw an arrow where the compass was. The arrow should point in the same direction as the painted end of the compass needle. 3. Move the compass toward the middle of the magnet. When the needle settles, note its direction and draw an arrow as before. 4. Repeat this as you move the compass to the other end of the magnet. 5. Now start again from a different place near the end of the magnet. Go from end to end at least 3 times. Explore both above and below the magnet. 6. When you're done, your arrows show you where the magnetic field is. Go To Table of Contents Last Update: July 20, 1997

A  B  C  D  E  F  G  H  I  J  K  L  M  N  O  P  Q  R  S  T  U  V  W  X  Y  Z

Page 2     21-40 of 90    Back | 1  | 2  | 3  | 4  | 5  | Next 20