MARTINDALE'S CALCULATORS ON-LINE CENTER PHYSICS APPLETS & CALCULATORS BY SUBJECT: A-E

US/Pacific: Sunday, October 24, 2004 Sydney, Australia: Monday, October 25, 2004 File Download Time Calculator Author, E-Mail, Privacy Policy & Disclaimer Currently the Calculators On-Line Center contains over "18,795" Calculators

Accelerators/Synchrotron ACCELERATOR TOOLS ACCELERATOR CALCULATORS - APS-ASD Mechanical Group, Mechanical Engineering Group-Accelerator Systems Division of the Advanced Photon Source (APS), Argonne National Laboratory VERY VERY VERY EXTENSIVE. For more information see APS-ASD Mechanical Group (see Miscellaneous Projects) or Advanced Photon Source Calculators include Bending Magnet Radiation Power Calculator Film Coefficient and Pressure Drop Calculator ID (Undulator and Wiggler) Radiation Power Calculator Flange size and knife edge dimension converter Elastic Beam Deflection Calculator RELATIVISTIC HEAVY ION COLLIDER (RHIC) APPLELTS - (JEFFERY MITCHELL'S RHICLETS) - J.T. Mitchell, PHENIX Experimental Group, Relativistic Heavy Ion Collider (RHIC), Brookhaven National Laboratory (BNL) VERY EXTENSIVE. For more information see Jeffery Thomas Mitchell's Home Page; PHENIX Software Page; PHENIX Experimental Group; Relativistic Heavy Ion Collider (RHIC) or the Brookhaven National Laboratory (BNL) Some examples of Applets include RHIC Collider Applet #1: Magnetic Field Adjustment RHIC Collider Applet #3: Beam Timing Adjustment Physics Applet #2: Antiproton-to-Proton Physics Applet #4: Charged Particle Multiplicity ROUND BEAM-BEAM MAP - ACCELERATOR PHYSICS APPLETS (JAVA APPLET) - C-A Accelerator Physics, Brookhaven National Laboratory (BNL) "...You may also simulate the effects of adding synchrotron damping and excitation, by inserting non-zero values for the "damping decrement" Delta and..." For more information see C-A Accelerator Physics Other examples of applets include Slow extraction with one octupole Standard Map A1 COLLABORATION: MAMI ACCELERATOR A1 COLLABORATION: MAMI ACCELERATOR (JAVA APPLETS) - H. Merkel, A1 Collaboration (MAMI Accelerator), Institut für Kernphysik, Johannes Gutenberg-Universität Mainz, Mainz, Germany VERY EXTENSIVE. For more information see Institut für Kernphysik Examples of Applets include Magnetic Properties of A1 Spectrometer Kinematics Calculator (Photon, Deuteron, 3He. etc.) ION-ION COLLISIONS ION-ION COLLISION CALCULATOR - H. Bräuning, Low Energy Ion Beam Facility (LIEF), Institut für Kernphysik, Fachbereich Physik, Justus-Liebig-Universität, Bundesrepublik Deutschland (Germany) For more information see Experimental Issues; Ion-Ion Collisions; Low Energy Ion Beam Facility (LIEF) or the Institut für Kernphysik He2+ + He+ COLLISION CALCULATOR - H. Bräuning, Low Energy Ion Beam Facility (LIEF), Institut für Kernphysik, Fachbereich Physik, Justus-Liebig-Universität, Bundesrepublik Deutschland (Germany) For more information see Experimental Issues; Ion-Ion Collisions; Low Energy Ion Beam Facility (LIEF) or the Institut für Kernphysik RECOIL MASS SPECTROMETER CALCULATION FRAGMENT MASS ANALYZER (FMA): CHANNEL NUMBERS FOR DIFFERENT VALUES OF M/q (M/q CALCULATION) - J. Snider, Heavy-ion Nuclear Physics Research, Physics Division, Argonne National Laboratory (ANL) For more information see FMA (Fragment Mass Analyzer); Heavy-ion Nuclear Physics Research; ANL Physics Division or the Argonne National Laboratory (ANL) FRAGMENT MASS ANALYZER (FMA): RECALL DETECTION EFFICIENCY OF THE FMA (EFFICIENCY CALCULATION) - Heavy-ion Nuclear Physics Research, Physics Division, Argonne National Laboratory (ANL) VERY EXTENSIVE. For more information see FMA (Fragment Mass Analyzer); Heavy-ion Nuclear Physics Research; ANL Physics Division or the Argonne National Laboratory (ANL) SYNCHROTRONS RADIATION TOOLS SYNCHROTRONS RADIATION CALCULATIONS: FLUX, BRIGHTNESS & POWER - A. Franck & H. Padmore, ALS Experimental Systems Group, Advanced Light Sourcem, Lawrence Berkeley National Laboratory VERY VERY EXTENSIVE. For more information see Computing Utilities; Experimental Systems Group or the The Advanced Light Source SIMULATIONS & ANIMATIONS EVENT SIMULATOR (JAVA APPLET) - D. Stickland, PPE Division, CERN, Swizerland "...This applet simulates the event that are produced at LEP when a Z boson decays and is observed in one of the 4 large detectors. By pressing the "Collide" button you start the simulation..." For more information see David Stickland's Home Page RELATIVISTIC HEAVY ION COLLIDER (RHIC) ANIMATIONS - J.T. Mitchell, PHENIX Experimental Group, Relativistic Heavy Ion Collider (RHIC), Brookhaven National Laboratory (BNL) Multimedia Tutorials (Text, Images, Movies & Sound). For more information see Jeffery Mitchell's RHIClets; Jeffery Thomas Mitchell's Home Page; PHENIX Software Page; PHENIX Experimental Group; Relativistic Heavy Ion Collider (RHIC) or the Brookhaven National Laboratory (BNL) ONLINE EXPERIMENTS IN REAL-TIME (JAVA APPLETS) CERN EXPERIMENTS ONLINE - P. Nouchi, CERN, Switzerland For more information see SPS Schedules - Online Version or CERN PSI ACCELERATOR STATUS (PION AND MUON BEAM LINES) (JAVA APPLET) - Paul Scherrer Institut, Switzerland "This Java Applet allows you also to inspect on-line the current settings of the 7 Secondary Beam Lines of the PSI Accelerator Facility. Updating of the data is done about every 20 secs by a multi-threaded round..." For more information see PSI Experiments or the Paul Scherrer Institut (PSI) RELATIVISTIC HEAVY ION COLLIDER (RHIC) - Brookhaven National Laboatory (BNL) For more information see Brookhaven National Laboatory (BNL) Chaos CHAOS CALCULATIONS & APPLICATIONS CHAOS ON THE WEB: PHYSICS 161: INTRODUCTION TO CHAOS- M. Cross, Condensed Matter Physics Group, Division of Physics, Mathematics and Astronomy, California Institute of Technology (Caltech) VERY VERY EXTENSIVE. Multimedia Course with Java Applet Demonstrations. For more information see Chaos on the Web Home Page; Michael Cross's Home Page; Condensed Matter Physics Group or the Division of Physics, Mathematics and Astronomy Some examples from over "50" Applets inlclude Chapter 1: The Lorenz Model - Demonstrations Chapter 5: 2-Dimensional Maps - Demonstrations Chapter 7: Lyapunov Exponents - Demonstrations Chapter 14: Bifurcations in the Quadratic Map - Demonstrations Chapter 19: 1D Circle Map - Demonstrations Chapter 21: Ruelle and Takens Theorem - Demonstrations CHAOS (JAVA APPLETS) - Department of Mathematics, College of Liberal Arts and Sciences, Arizona State University For more information see Department of Mathematics Some examples include Logistic Map The Henon Map and Box Counting Dimension CHAOS (JAVA APPLETS) - P. Kernan, Particle-Astrophysics Group, Department of Physics, Case Western Reserve University For more information see Java Applets for Chaos and Fractals; Java Applets; Pete Kernan's Home Page or the Particle-Astrophysics Group Some examples include Logistic Map, Time Series Logistic Map, Orbit Diagram Duffing Equation, time series, orbits CHAOS APPLETS - R.L. Devaney, Dynamical Systems and Technology Project, Boston University For more information see Dynamical Systems and Technology Project Some examples include Target Practice - A. Vajiac Cycle Practice - A. Vajiac FEIGENBAUM BIFURCATION APPROACH TO CHAOS - W. Bauer, Department of Physics and Astronomy and National Superconducting Cyclotron Laboratory, Michigan State University For more information see Wolfgang Bauer's Home Page or the Department of Physics and Astronomy PATTERN FORMATION IN NONEQUILIBRIUM SYSTEMS: PHYSICS 161B- M. Cross, Condensed Matter Physics Group, Division of Physics, Mathematics and Astronomy, California Institute of Technology (Caltech) VERY VERY EXTENSIVE. Java Applet Demonstrations. For more information see Chaos on the Web Home Page; Michael Cross's Home Page; Condensed Matter Physics Group or the Division of Physics, Mathematics and Astronomy Some examples from over "15" Applets inlclude Swift-Hohenberg Equation - Hexagons Lifshitz-Petrich Equation - A Quasicrytal Pattern Swift-Hohenberg Equation - ZigZag Instability PATTERNS AND SPATIOTEMPORAL CHAOS (JAVA APPLETS) - M. Cross, Condensed Matter Physics Group, Division of Physics, Mathematics and Astronomy, California Institute of Technology (Caltech) EXTENSIVE. For more information see Michael Cross's Home Page; Condensed Matter Physics Group or the Division of Physics, Mathematics and Astronomy Some examples inlclude Swift-Hohenberg Equation Reaction Diffusion Equation: Bar-Eiswirth model Reaction Diffusion Equation: Schnackenberg model PHYSICS APPLETS ILLUSTRATING CHAOS AND FRACTALS (JAVA APPLETS) - S. Catterall, Department of Physics, Syracuse University Multimedia (Text & Images). For more information see Physics 307: Science and Computers; Physics Courses or the Department of Physics, Syracuse University Some examples from over '10' Applets Illustrating Chaos and Fractals include The Logistic Map Computing N-cycles Plotting the Henon Attractor Clebsch-Gordon & Wigner Coefficient CLEBSCH-GORDON COEFFICIENT CALCULATIONS CLEBSCH-GORDON COEFFICIENT CALCULATOR - P.D. Stenvenson, Centre for Nuclear and Radiation Physics, Department of Physics, University of Surrey, U.K. VERY EXTENSIVE. "The calculator evaluates Clebsch-Gordan coefficients which arise in the theory of angular momentum in quantum mechanics..." For more information see Clebsch-O-Matic; Paul D. Stenvenson; Centre for Nuclear and Radiation Physics or the Department of Physics Examples of other Calculators include 3-j Coefficient Calculator (3j symbol calculator) 6-j Coefficient Calculator (6j symbol calculator) 9-j Coefficient Calculator (9j symbol calculator) 3j-SYMBOL CALCULATOR - S.G. Redsun, Santa Fe, N.M. For more information see Java or the Sven Gato Resun's Home Page 369j-SYMBOL CALCULATOR - Plasma Laboratory of Weizmann Institute of Science For more information see Free Software for Atomic and Plasma Physics or the WIS Plasma Laboratory WIGNER COEFFICIENT CALCULATIONS WIGNER COEFFICIENT CALCULATOR - A. Stone, Department of Chemistry, University of Cambridge "...calculate Wigner 3-j, 6-j and 9-j symbols exactly..." For more information see the Anthony Stone's Home Page or the Department of Chemistry Computational Physics COMPUTATIONAL PHYSICS COMPUTATIONAL PHYSICS APPLETS - Landau Research Group & Paez Research Group; Hosted by the Landau Research Group, Department of Physics, Oregon State University VERY EXTENSIVE. For more information see Computational Physics; Rubin H. Landau's Home Page or the Department of Physics Some examples from over "15" Applets include Chaotic scattering Two dimensional relativistic collision

Databases & Periodic Tables SEE THE PHYSICS DATABASES & PERIODIC TABLES Diffraction DIFFRACTION CALCULATIONS FOR RELATED CALCULATORS SEE THE CHEMISTRY CALCULATOR CENTER: CRYSTALLOGRAPHY AN INTERACTIVE COURSE ON SYMMETRY AND ANALYSIS OF CRYSTAL STRUCTURE BY DIFFRACTION (JAVA APPLETS) - W. Hardaker & G. Chapuis, University of Lausanne, Switzerland "...The aim of this website is to give a general introduction on the subject of crystalline structures and how they diffract X-rays..." Includes: "Escher Web Sketch, Reciprocal Lattice Calculator, Ewald Sphere Animations, Laue Diagram Simulator." VERY EXTENSIVE. For more information see Department of Physics DIFFRACTION - Materials Teaching Educational Resources (MATTER) Project, Material Science & Engineering, Department of Engineering, The University of Liverpool, Liverpool, U.K. Multimedia Interactive Course (Text, Images & Movies). Includes: "Introduction to Diffraction; Geometry of Diffraction; Intensity of Diffraction; X-ray Diffraction & Electron Diffraction." For more information see the MATTER Project INTERACTIVE TUTORIAL ABOUT DIFFRACTION - Th. Proffen & R.B. Neder, Crystallography Group, Institute of Mineralogy, University of Würzburg, Germany VERY VERY EXTENSIVE. "...a pictorial guide to crystal structures and their Fourier transforms useful for teaching diffraction physics..." For more information see Crystallography Group in Würzburg or the Institute of Mineralogy Some examples from over "20" Applets include 1D crystal builder Polygon of atoms Ewald sphere Bragg's law HK plane simulator Powder diffraction: Pair distribution function BRAGG'S LAW AND DIFFRACTION: HOW WAVES REVEAL THE ATOMIC STRUCTURE OF CRYSTALS (JAVA APPLET) - K. Lukin, Earth Science Educational Resource Center and the Long Island Consortium for Interconnected Learning, State University of New York at Stony Brook For more information see Project Java or Earth Science Educational Resource Center Electromagnetic Forces & Waves SEE RELATED CALCULATORS SEE THE CALCULATOR CENTER: ELECTRICAL & COMPUTER ENGINEERING FIELDS & WAVES ELECTRIC FIELDS: EXPLORING (JAVA APPLET) - M. Busque, M. Dion, D. Michaud & M. Sheaff, Université Laval, Québec, Canada In English & French/Français. "Place punctual electric charges and visualize the effect of the electric field they create!" For more information see Martin Busque's Home Page ELECTROMAGNETIC WAVES (JAVA APPLETS) - Amanogawa VERY EXTENSIVE. For more information see Electromagnetic Waves or Amanogawa Some examples from over '6' Applets include Polarization Parallel Plate Waveguide FIELDS AND WAVES (JAVA APPLETS) - A. Traidman, Department of Electrical and Computer Systems Engineering, Rensselaer Polytechnic Institute VERY EXTENSIVE. For more information see Fields & Waves Home Page Some examples from over '6' Applets include Propogation of an Electromagnetic Wave Electric field due to point charge Wave Interference SIMULATIONS VRML GALLERY OF ELECTROMAGNETISM - B. Salgado, Department of Physics, Syracuse University VERY VERY EXTENSIVE. Requires "VRML-enabled browser". Includes: "Addition, Wedge Product, Raising and Lowering of Indices, Unit Vectors, Charged Point (Coulomb), Two Charged Points, Charged Dipole, Charged Sphere, Charged Cylinder, Charged Plane, Faraday Law, etc." For more information see VRML Gallery of Physics ANIMATIONS ELECTROMAGNETIC WAVES AND CIRCULAR DICHROISM (ANIMATIONS) - A. Szilágyi, Institute of Enzymology, Hungarian Academy of Sciences, Hungary "...In the following movies, a wave propagating in space is visualized. The light beam is intersected at a fixed point of space by a plane perpendicular to the direction of propagation of the light beam..." For more information see András Szilágyi Home Page Electromagnetic Spectrum ELECTROMAGNETIC SPECTRUM CALCULATIONS ELECTROMAGNETIC SPECTRUM CALCULATOR (JAVA APPLET) - G.D. Westfall & W. Bauer, Department of Physics and Astronomy and National Superconducting Cyclotron Laboratory, Michigan State University For more information see Physics Applets; Wolfgang Bauer's Home Page or the Department of Physics and Astronomy LE SPECTRE ÉLECTROMAGNÉTIQUE (JAVA APPLET) - M. Busque, M. Dion, D. Michaud & M. Sheaff, Université Laval, Québec, Canada In French/Français. For more information see Martin Busque's Home Page Electrostatics ELECTROSTATICS ELECTROSTATICS - P. Falstad For more information see MATH & Physics Simulations or Paul Falstad's Home Page ELECTROSTATIC FIELD SIMULATION 2-D ELECTROSTATIC FIELD SIMULATION - P. Falstad For more information see MATH & Physics Simulations or Paul Falstad's Home Page ELECTROSTATIC POTENTIAL ELECTROSTATIC POTENTIAL APPLET - W. Bauer, Department of Physics and Astronomy and National Superconducting Cyclotron Laboratory, Michigan State University For more information see Physics Applets; Wolfgang Bauer's Home Page or the Department of Physics and Astronomy Error & Measurement MEASUREMENT & UNCERTAINTY MEASUREMENT & UNCERTAINTY (JAVA APPLET) - D. Wiarda "No measurement can yield one absolutely true value. Rather, the best we can hope for is a best estimate." For more information see Doro Wiarda's Home Page

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