81. Electromagnetism This has very important consequences for electromagnetism. Yet it is assumedin classical electromagnetism that eqn (A2.6) holds for the electric fields http://www.eryptick.net/dj/electrom.htm

Electromagnetism, Relativity, and Maxwell a draft by David Jefferies 18th August 2000 revised 29th September 2000 see also http://www.ee.surrey.ac.uk/Personal/D.Jefferies/emant.html Charge is mysterious. We know it comes in two sorts, distinguished by the labels "positive" and "negative". We might just as well call it "Tom" and "Jerry". The behaviour of charge is summarised by the two facts that "like charges repel, unlike charges attract, the force being proportional to the product of the amounts of charge" and "the repulsion (or attraction) falls off as the square of the distance between the charges." Unfortunately, the early investigators assigned positive charge to the static ions, and that left negative charge for the mobile electrons. Thus, a stream of electrons travelling to the right actually represents a positive "current" or "charge flow" to the left. The "inverse square law" means that the repulsive force between two "Toms" falls to a quarter of its original value each time the distance between the "Toms" is doubled....and the attractive force between a single "Tom" and a single "Jerry" likewise falls to a quarter every time the distance between them is doubled. If we suddenly put two Toms together and some distance away there is a single Jerry, [notwithstanding the fact that we might question whether the two Toms would repel each other so much that they would fly apart,] the pair of them instantaneously attract the single Jerry with twice the force that just a single Tom would.

82. Volume I - DC :: Chapter 14: MAGNETISM AND ELECTROMAGNETISM electromagnetism Magnetic units of measurement Permeability and saturation Electromagnetic induction Chapter 14 MAGNETISM AND electromagnetism http://www.allaboutcircuits.com/vol_1/chpt_14/

Volume I - DC Volume II - AC Volume III - Semiconductors Volume IV - Digital ... Mutual inductance Search All Volumes Volume I - DC Volume II - AC Volume III - Semiconductors Volume IV - Digital Volume V - Reference Volume VI - Experiments Check out our new Electronics Forums Ask questions and help answer others. Check it out! Chapter 14: MAGNETISM AND ELECTROMAGNETISM All About Circuits Volume I - DC Chapter 14: MAGNETISM AND ELECTROMAGNETISM All About Electric Circuits ... Contact

83. Electrostatics 3D Educational Software. Www.Electrostatics3D.com 3D electromagnetism software for colleges and high schools for visualization of equipotential surfaces and field lines of many kinds of charges in addition with topographic and colored views http://www.electrostatics3d.com

Electrostatics software (electromagnetism software) for colleges and high schools for the visualization of equipotential surfaces and electric field lines in 2D, 3D and topographhic view and deals with many kinds of charges (point, linear, plane..conductive sphere, di electric) Equipotential Surfaces and field Lines By NIMA Software Group Chief programmer : Nima Bigdely New version 3.2 released Sorry, your browser doesn't support Java. Equipotential Surfaces is a software that shows electric potential and field lines for many kind of charges. It has been created to help students visualize electrostatics. It's useful for both high school and college students . For more electromagnetism images Click Here Software features : Dealing with many kinds of charges : Point , Linear and page charges with limited or unlimited length , Conductive spheres and Di Electric boundaries Accurate calculations . It finds potential by REAL mathematical integration (not inaccurate numerical calculation of integrals) Helps your imagination by Colored electric potentials Colored E field values and individual charge E vectors Drawing the route of a projectile charge influenced by other charges Topographical and colored view of potential and E field value Software usage : Personal use Class demonstrations: enrich your electromagnetism course by visualizing subjects for your students in classroom with this software Computer site install: let students interact with electrostatics concepts and get a better understanding of them

84. Electromagnetism 5 electromagnetism. 5.1 Magnetism. So far we have discussed the forces betweencharges which are at rest with respect to each other. http://www.ch.ic.ac.uk/local/physical/mi_5.html

5 Electromagnetism 5.1 Magnetism So far we have discussed the forces between charges which are at rest with respect to each other. When charges are moving relative to each other they exert an additional force, the magnetic force. This force, as we will see later, plays a negligible role in inter atomic and intermolecular bonding. However, the effect of magnetic fields on atoms and molecules is used widely in all manner of spectroscopies, and we will need to appreciate magnetic behaviour in order to understand the interaction of light and other electromagnetic radiation with atoms and molecules. 5.1.1 The Lorentz Force Magnetic materials were discovered well before the electrostatic effects of rubbing amber. The magnetic iron oxide, magnetite, was mined in Asia Minor well before the birth of Christ, indeed by about 100 BC the Chinese had already discovered that such minerals would align with the north and south poles. By the beginning of the 19th Century it was known that such bar magnets would repel if like poles were facing each other and attract if the poles were of the opposite sense, and the similarities with the behaviour of electric charges had for some time interested scientists of the time. They made the following observations * the force is proportional to the magnitude and sign of the charge on the particle * the force is proportional to the velocity of the charged particle * the force is proportional to the magnitude of the magnetic field * the magnitude of the force depends on the relative orientation between the line of flight and the direction of the magnetic field

85. Revision Centre - GCSE Physics - Electromagnetism Revision notes, links, games, and loads of resources to help you through your exams http://revisioncentre.co.uk/gcse/physics/electromagnetism.html

Home Contact Notes Biology ... Ringtones GCSE Physics > Electromagnetism This is the idea that magnetism can travel from one object to another even though they are insulated. An example of how magnetic induction is used is in transformers. Two coils of wire are wrapped around an iron core. The primary coils are connected to the power supply while the secondary coils are connected to the device. An electromagnetic field is created from the primary coils and this induces a magnetic field in the core. This in turn induces a current in the secondary coil. The number of coils is proportional to the amount of voltage, so a transformer is used to increase or decrease the voltage. secondary voltage secondary turns primary voltage = primary turns Site Search: © 2004-2005 RevisionCentre.co.uk In Association with: Computing Students Revision Aid Revision Guides Navigation: Home Contact Shop Links ... Ringtones Subjects: Biology Chemistry Computing English ... Spanish

86. Oersted, Hans (1777-1851) -- From Eric Weisstein's World Of Scientific Biography Short article about the discovery of electromagnetism. http://scienceworld.wolfram.com/biography/Oersted.html

Branch of Science Physicists Nationality Danish Oersted, Hans (1777-1851) Danish physicist and philosopher who, in 1819, discovered the deflection of a compass needle while performing a demonstration for his students. This discovery of a fundamental connection between electricity and magnetism rocked the scientific community and led to a flurry of activity in electrodynamic research by such investigators as and Arago . After all, the magnetism produced by a current would generate a force. Forces are capable of producing motion, so motion could come about which would lead to a current While this is not a conservation law, it is a statement about the fundamental interconvertibility of natural phenomena. It it is often stated that Oersted's was completely accidental and spontaneous. That contention is, however, misleading. Oersted had studied Naturphilosophie under Schelling himself, and wholeheartedly adopted the view that nature is systematic and unified. (He also thought that the practice of science is a religion.) The fact that he should be seeking a connection between electricity and magnetism was motivated entirely because of his prior philosophical conviction that one must exist. After all, only someone looking to find a connection between

87. Electromagnetism, Optics, Acoustics (www.onderzoekinformatie.nl) electromagnetism, optics, acoustics. Show printerfriendly view Print View switch to nl with the classification electromagnetism, optics, acoustics http://www.onderzoekinformatie.nl/en/oi/nod/classificatie/D12300/toon

Login English KNAW Research Information NOD - Dutch Research Database ... Classification entire www.onderzoekinformatie.nl site fuzzy match Electromagnetism, optics, acoustics Print View Please choose one of the following aspect associated with the classification "Electromagnetism, optics, acoustics": Current research programmes Discontinued research programmes Current research projects Discontinued research projects ... Researchers (professors, associated professors and researchers with a given expertise) Organisations Research Schools Current research programmes etc. associated with this classification: (the most recent research is placed on top) Cyttron: A window on the molecular machinery of life Molecular imaging ischemic heart disease Statistical physics, condensed matter theory and quantum optics Ultrafast spin dynamics ... Optics Discontinued research programmes etc. associated with this classification: (the most recent research is placed on top) The IR user facility, FELIX Quantum optics of small systems LEP (CERN): The electro-weak interaction Multimodal Interaction ... Analysis of transient electromagnetic interference fields in a sub station Current research projects associated with this classification: (the most recent research is placed on top) NO2 sensor under development Monitoring condition rotor blades with "optical fibres" Characterising the space-time variability of rainfall across a range of scales using state-of-the-art ground based weather radars operating at complementary resolutions High resolution radar data for sustainable forest management in Indonesia ... Modeling radiation, heat and mass (water vapour and carbon) exchanges at the land-atmosphere interface using multi-angular optical and thermal measurements

88. History A time line of the development of electromagnetism from 900 BC to 1905. http://maxwell.byu.edu/~spencerr/phys442/node4.html

Next: Review Sheet Up: No Title Previous: Homework Assignments History A Ridiculously Brief History of Electricity and Magnetism Mostly from E. T. Whittaker's A History of the Theories of Aether and Electricity... 900 BC - Magnus, a Greek shepherd, walks across a field of black stones which pull the iron nails out of his sandals and the iron tip from his shepherd's staff (authenticity not guaranteed). This region becomes known as Magnesia. 600 BC - Thales of Miletos rubs amber ( elektron in Greek) with cat fur and picks up bits of feathers. 1269 - Petrus Peregrinus of Picardy, Italy, discovers that natural spherical magnets (lodestones) align needles with lines of longitude pointing between two pole positions on the stone. 1600 - William Gilbert, court physician to Queen Elizabeth, discovers that the earth is a giant magnet just like one of the stones of Peregrinus, explaining how compasses work. He also discusses static electricity and invents an electric fluid which is liberated by rubbing. ca. 1620 - Niccolo Cabeo discovers that electricity can be repulsive as well as attractive.

89. Electromagnetism 1 By Ivor Catt - Free Book On The Web Web version of the 1994 book electromagnetism 1, by Ivor Catt. http://www.ivorcatt.com/em.htm

Electromagnetic Theory approached via the guided TEM Wave Electromagnetism 1 by Ivor Catt 2002 update of book - ISBN: 906340 10 1 Index Prefaces Introduction Battery drives load via long transmission line. (Mathematical analysis) Battery drives load via long transmission line. (Numerical analysis) ... Book Review first published in the IEE Journal "Electronics & Communication Engineering Journal October 1995, p218 Order the book from ivor@ivorcatt.com Ivor Catt 121 Westfields , St Albans AL3 4JR , England Specify A5 or A4 size Contact: the webmaster visitors since 1/1/2003

90. Lessons In Electric Circuits -- Volume I (DC) - Chapter 14 Magnetism and electromagnetism. While Oersted s surprising discovery ofelectromagnetism paved the way for more practical applications of electricity, http://www.ibiblio.org/obp/electricCircuits/DC/DC_14.html

Lessons In Electric Circuits Volume I Chapter 14 MAGNETISM AND ELECTROMAGNETISM Permanent magnets Centuries ago, it was discovered that certain types of mineral rock possessed unusual properties of attraction to the metal iron. One particular mineral, called lodestone , or magnetite , is found mentioned in very old historical records (about 2500 years ago in Europe, and much earlier in the Far East) as a subject of curiosity. Later, it was employed in the aid of navigation, as it was found that a piece of this unusual rock would tend to orient itself in a north-south direction if left free to rotate (suspended on a string or on a float in water). A scientific study undertaken in 1269 by Peter Peregrinus revealed that steel could be similarly "charged" with this unusual property after being rubbed against one of the "poles" of a piece of lodestone. Unlike electric charges (such as those observed when amber is rubbed against cloth), magnetic objects possessed two poles of opposite effect, denoted "north" and "south" after their self-orientation to the earth. As Peregrinus found, it was impossible to isolate one of these poles by itself by cutting a piece of lodestone in half: each resulting piece possessed its own pair of poles: Like electric charges, there were only two types of poles to be found: north and south (by analogy, positive and negative). Just as with electric charges, same poles repel one another, while opposite poles attract. This force, like that caused by static electricity, extended itself invisibly over space, and could even pass through objects such as paper and wood with little effect upon strength.

91. FORCEFIELD - We Supply WONDERMAGNETS (TM) - Incredibly Powerful Ceramic And Neod Powerful Neodymium and Ceramic magnets and other products, sold new and surplus and at wholesale prices. Site also has a FAQ for magnets and electromagnetism, and magnetic demonstration images. http://www.wondermagnets.com/

Welcome To Ceramic and Neodymium rare earth magnets retail and wholesale! In addition to a large product line including magnets, superconductor kits, books, and other interesting items, our site also contains a highly active message board for hobbyists and magnet enthusiasts, a FAQ for magnetism and electromagnetic phenomena, a gallery of fascinating demonstrations and pictures, and a variety of other goodies! CLICK HERE TO ENTER THE SITE! © 2001 by ForceField

92. Electromagnetism electromagnetism. electromagnetism. General electromagnetic phenomenons canbe describe with the four Maxwell s equations . equation11 http://www.recherche.enac.fr/~puechmor/e_transfo/node3.html

Next: Inductance Up: Transformers physics Previous: Transformers physics Electromagnetism General electromagnetic phenomenons can be describe with the four Maxwell's equations : The quantities appearing beeing those : E is the electric field vector, in Volts per meter ( H or oersteds D is the electric displacement (Coulombs per square meter B is the magnetic induction (Teslas or Webers per square meter T is the charge's density (Coulombs per cubic meter j Vectors E and D are linked by the polarisability of the material : in vacuum, one have simply with is the permittivity of vacuum, in Farads per meter. In polarisable matter, relationship between E and D is generally non linear, namely D f E ). In most cases, f will admit a serie expansion in a neighborood of 0, yielding : Except when dealing with extremely high fields or with ferroelectric substrates (like KDP, baryum titanate, Seignette salt), there is no need to use non-linear terms in the previous expansion. The relarionship is then purely linear with an order 2 tensor called permittivity tensor (one often writes , with called relative permittivity tensor). When fields are time varying, the phase variations can be modelled by taking a complex

93. James Clerk Maxwell The Scottish physicist James Clerk Maxwell (18311879) did revolutionary work in electromagnetism and the kinetic theory of gases. http://www.phy.hr/~dpaar/fizicari/xmaxwell.html

James Clerk Maxwell The Scottish physicist James Clerk Maxwell, b. Nov. 13, 1831, d. Nov. 5, 1879, did revolutionary work in electromagnetism and the kinetic theory of gases. After graduating (1854) with a degree in mathematics from Trinity College, Cambridge, he held professorships at Marischal College in Aberdeen (1856) and King's College in London (1860) and became the first Cavendish Professor of Physics at Cambridge in 1871. Maxwell's most important achievement was his extension and mathematical formulation of Michael Faraday's theories of electricity and magnetic lines of force. In his research, conducted between 1864 and 1873, Maxwell showed that a few relatively simple mathematical equations could express the behavior of electric and magnetic fields and their interrelated nature; that is, an oscillating electric charge produces an electromagnetic field. These four partial differential equations first appeared in fully developed form in Electricity and Magnetism (1873). Since known as Maxwell's equations they are one of the great achievements of 19th-century physics. Maxwell also calculated that the speed of propagation of an electromagnetic field is approximately that of the speed of light. He proposed that the phenomenon of light is therefore an electromagnetic phenomenon. Because charges can oscillate with any frequency, Maxwell concluded that visible light forms only a small part of the entire spectrum of possible electromagnetic radiation.

94. Chapter 2: Electromagnetism Make a simple Van de Graaff generator with common household materials. http://www.scitoys.com/scitoys/scitoys/electro/electro6.html

Building an electric motor in 10 minutes. The single brush motor. A bigger motor. The double brush improvement. ... A railgun in 10 minutes A simple homemade Van de Graaff generator In the previous two projects, we stole high voltage from a television set to power our high voltage motors. In this project we will build a device that can generate 12,000 volts from an empty soda can and a rubber band. The device is called a Van de Graaff generator. Science museums and research facilities have large versions that generate potentials in the hundreds of thousands of volts. Ours is more modest, but is still capable of drawing 1/2 inch sparks from the soda can to my finger. The spark is harmless, and similar to the jolt you get from a doorknob after scuffing your feet on the carpet. To build the toy, you need: An empty soda can A small nail A rubber band, 1/4 inch by 3 or 4 inches A 5x20 millimeter GMA-Type electrical fuse (such as Radio Shack #270-1062) A small DC motor (such as Radio Shack #273-223) A battery clip (Radio Shack #270-324) A battery holder (Radio Shack #270-382) A styrofoam cup (a paper cup will also work) A hot glue gun (or regular glue if you don't mind waiting) Two 6 inch long stranded electrical wires (such as from an extension cord) Two pieces of 3/4 inch PVC plumbing pipe, each about 2 or 3 inches long

95. Electromagnetism: Definition And Much More From Answers.com e·lec·tro·mag·net·ism ( ilek tro-mag ni-tiz ?m ) n. Magnetism produced byelectric charge in motion. http://www.answers.com/topic/electromagnetism

showHide_TellMeAbout2('false'); Business Entertainment Games Health ... More... On this page: Dictionary Electronics WordNet Wikipedia Mentioned In Or search: - The Web - Images - News - Blogs - Shopping electromagnetism Dictionary e·lec·tro·mag·net·ism ĭ-lĕk trō-măg nĭ-tĭz əm n. Magnetism produced by electric charge in motion. The physics of electricity and magnetism. Electronics electromagnetism Relates to the magnetic field generated around a conductor when current is passed through it. WordNet Note: click on a word meaning below to see its connections and related words. The noun electromagnetic interaction has one meaning: Meaning #1 an interaction between charged elementary particles that is intermediate in strength between the strong and weak interactions; mediated by photons Wikipedia electromagnetism Electromagnetism Electricity Magnetism Electrostatics Electric charge ... Waveguides Electromagnetism is the physics of the electromagnetic field : a field , encompassing all of space, composed of the electric field and the magnetic field . The electric field can be produced by stationary electric charges , and gives rise to the electric force , which causes static electricity and drives the flow of electric current in electrical conductors . The magnetic field can be produced by the motion of electric charges, such as an electric current flowing along a wire, and gives rise to the magnetic force one associates with

96. Classical Electromagnetism: Information From Answers.com Classical electromagnetism Classical electromagnetism is a theory of electromagnetismthat was developed over the course of the 19th century , most. http://www.answers.com/topic/classical-electromagnetism

showHide_TellMeAbout2('false'); Business Entertainment Games Health ... More... On this page: Wikipedia Mentioned In Or search: - The Web - Images - News - Blogs - Shopping Classical electromagnetism Wikipedia Classical electromagnetism Classical electromagnetism is a theory of electromagnetism that was developed over the course of the 19th century , most prominently by James Clerk Maxwell . It provides an excellent description of electromagnetic phenomena whenever the relevant length scales and field strengths are large enough that quantum mechanical effects are negligible. Lorentz force The electromagnetic field exerts the following force (often called the Lorentz force) on charged particles: where all boldfaced quantities are vectors F is the force that a charge q experiences, E is the electric field at q's location, v is q's velocity, B is the strength of the magnetic field at q's position, and c is the speed of light. This description of the force between charged particles, unlike Coulomb's force law , does not break down under relativity and in fact, the magnetic force is seen as part of the relativistic interaction of fast moving charges that Coulomb's law neglects.

97. GCSE Electromagnetism Coursework And GCSE Electromagnetism Essays - Electromagne GCSE electromagnetism Coursework and GCSE electromagnetism Essays. http://courseworkbank.co.uk.nmsrv.com/GCSE/Physics_Coursework/Electromagnetism/

CourseworkBank.Co.Uk - The UK's Largest Free Coursework and Essay Database All Categories This Category CourseworkBank GCSE Physics Coursework : Electromagnetism Jump to Coursework Select a Category A Level A Level/Art A Level/Biology A Level/Chemistry A Level/Classics A Level/Economics A Level/French A Level/Geography A Level/German A Level/History A Level/Law A Level/Maths A Level/Media Studies A Level/Miscellaneous A Level/Philosophy A Level/Physics A Level/Politics A Level/Psychology A Level/Sociology A Level/Spanish GCSE GCSE/Art GCSE/Biology GCSE/Biology/Enzymes GCSE/Biology/Osmosis GCSE/Business Studies GCSE/Chemistry GCSE/Drama GCSE/Economics GCSE/English Language GCSE/Geography GCSE/History GCSE/History/African GCSE/History/Britain GCSE/History/European GCSE/History/France GCSE/History/Germany GCSE/History/Russian GCSE/History/Vietnam GCSE/Languages GCSE/Languages/French GCSE/Languages/German GCSE/Languages/Irish GCSE/Languages/Welsh GCSE/Latin GCSE/Maths GCSE/Maths/T Shapes GCSE/Miscellaneous GCSE/Music GCSE/Physics GCSE/Physics/Pendulum GCSE/Psychology GCSE/Technology I.B.

98. Education/Interactive Experiments/Electromagnetism Resources - PhysicsWeb PhysicsWeb, The web site for physicists, PhysicsWorld, Institute of Physics,Electronic Publishing, online products and services. http://physicsweb.org/resources/Education/Interactive_experiments/Electromagneti

Advanced site search resources Resources home What's new Add a link Edit my links ... Advanced resource search quick search Search resources iop resources IOP Select PEERS PhysicsWeb Education ... Interactive experiments links in this category A continuous Model of matter based on AEONS Applets - This page include applets about cinematics, dinamics, gravitation, waves, electrostatics... Biot-Savart Law - Biot-Savart law give equation for magnetic field just due to a small current element. However, the current must form a loop. You will not have only a small current element. All the current elements along the current loop can contribute to the magnetic field. How do we measure magnetic field dB just due to a small current element? Try this! Fu-Kwun Hwang 051398 CD for Topics in Freshman Physics and Applet demos - CD Freshman Physics educational software, covers Orbital dynamics, EM waves and Planck fuctions. Includes auto marked questions, Power Point Slides, grade reports, calulator and graphing program. Charged particle 2D motion in uniformed magnetic field - This java applet let you play with 3 charged particles. Drag particle to differ region and change its velocity, then RIGHT CLICK to start the animation. Learn how charged particle moved in the uniform magnetic field. Come and visit Virtual Physics Laboratory at NTNU with more than 60 physics applets. FU-Kwun Hwang 031400

99. Site Map Human beings are not the only creatures on earth that exploit electromagnetismto sense their surroundings and communicate with one another. http://www.spectrum.ieee.org/publicaccess/9603teaser/9603fish.html

var ad1 = "/AAMB1/spectrum_location=top" + allTarget; document.write(''); document.write(''); Font Size: A A A Sep 2005 Issue SELECT AN ISSUE September 2005 August 2005 July 2005 June 2005 May 2005 April 2005 var ad2 = "/AAMB2/spectrum_location=left" + allTarget; var ad3 = "/AAMB3/spectrum_location=left" + allTarget; document.write(''); document.write(''); Site Map The page you are looking for cannot be found. Below is a list of our most popular pages. IEEE Spectrum Home About Us Reader Services ... Spectrum Extras Radio Spectrum Webinars/Webcast Events Calendar RSS/XML Feed The Insitute Author an Article Top 10 Articles Newsletters Signup Webcasts Spectrum to Go / Spectrum Radio ... Tech Talk Your Future IEEE Job Site Careers var ad4 = "/AAMB4/spectrum_location=right" + allTarget; var ad5 = "/AAMB5/spectrum_location=right" + allTarget; document.write(''); document.write(''); var ad6 = "/AAMB6/spectrum_location=bottom" + allTarget; document.write(''); document.write(''); Site Map Privacy

100. Electromagnetism Basics - Science Articles :: Physics Post electromagnetism Basics. Author Tom Young Added 06/29/2003 Type Summary Viewed6661 time(s) Average visitor rating of 8.5/10 Average visitor rating of http://www.physicspost.com/articles.php?articleId=155

Page 5     81-100 of 136    Back | 1  | 2  | 3  | 4  | 5  | 6  | 7  | Next 20