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         Mechanics & Motion:     more books (100)
  1. Exploring the Limits of Preclassical Mechanics: A Study of Conceptual Development in Early Modern Science: Free Fall and Compounded Motion in the Work ... of Mathematics and Physical Sciences) by Peter Damerow, Gideon Freudenthal, et all 2004-03-30
  2. Mechanics of Terrestrial Locomotion: With a Focus on Non-pedal Motion Systems by Klaus Zimmermann, Igor Zeidis, et all 2009-05-27
  3. Classical Descriptions of Motion (A Series of books in physics) by E.J. Konopinski, 1970-02-02
  4. The Laws of Motion: An Anthology Of Current Thought (Contemporary Discourse in the Field of Physics)
  5. Perpetual Motion: The History of an Obsession by Arthur W. J. G. Ord-Hume, 1980-09
  6. Vorticity and Turbulence Effects in Fluid Structure Interactions : An Application to Hydraulic Structure Design (Advances in Fluid Mechanics) by M. Brocchini, F. Trivellato, 2006-05-15
  7. Vortex Dynamics (Cambridge Monographs on Mechanics) by P. G. Saffman, 1995-02-24
  8. Structural Synthesis of Parallel Robots: Part 3: Topologies with Planar Motion of the Moving Platform (Solid Mechanics and Its Applications) by Grigore Gogu, 2010-09-17
  9. Mechanics: Dynamics, Motion of Solids v. 2 by B.C. McInnis, G.R. Webb, 1971-11-12
  10. Marks' Mechanics Problem-Solving Companion by Larry Silverberg, James P. Thrower, 2001-04-26
  11. Force And Motion (Physics in Our World) by Kyle, Ph.d. Kirkland, 2007-04-30
  12. Lagrangian: Dynamical system, Joseph Louis Lagrange, Classical mechanics, Lagrangian mechanics, Kinetic energy, Potential energy, Equations of motion, ... equation, Partial differential equation
  13. SMP 16-19 Mechanics 2: Moments, Energy and Circular Motion (School Mathematics Project 16-19) by School Mathematics Project, 2002-08-30
  14. Vortex Methods and Vortex Motion

61. Skeleton SSM - Mechanics Of Motion

http://www.mds.qmw.ac.uk/biomed/kb/specialstudy/ssmpolly/Lecture_7.htm
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62. Skeleton SSM - Mechanics Of Motion
The mechanics of motion.
http://www.mds.qmw.ac.uk/biomed/kb/specialstudy/ssmpolly/Lecture_7_files/slide00
The Mechanics of Motion

63. ThinkQuest Library Of Entries
History, Producing a motion Picture, When we watch a motion picture, we are actuallyseeing many thousands of separate still pictures. . motionPicture Camera.
http://library.advanced.org/10015/data/info/reference/mechanics/
Welcome to the ThinkQuest Internet Challenge of Entries
The web site you have requested, The Motion Picture Industry: Behind-the-Scenes , 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 The Motion Picture Industry: Behind-the-Scenes click here Back to the Previous Page The Site you have Requested ...
The Motion Picture Industry: Behind-the-Scenes
click here to view this site
A ThinkQuest Internet Challenge 1997 Entry
Click image for the Site Awards Received
  • First Place
Languages : Site Desciption This site is packed with motion picture facts. The idea of moving images developed in 65 B.C. with the theory of persistence of motion, but it took more than another 1900 years before someone photographed a moving scene. Learn what it takes to make a movie and find out about the people involved. View a short film or even make your own online movie. Aspiring to write a screenplay? Use "ScriptBuddy" to walk you through the process.
Students Peter Christian Brothers Academy
NJ, United States

64. PhilSci Archive: What Quantum Mechanics Describes Is Discontinuous Motion Of Par
What quantum mechanics describes is discontinuous motion of particles. Gao, Shan(2001) What quantum mechanics describes is discontinuous motion of particles.
http://philsci-archive.pitt.edu/documents/disk0/00/00/04/47/
What quantum mechanics describes is discontinuous motion of particles
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Gao, Shan (2001) What quantum mechanics describes is discontinuous motion of particles. Full text available as: Adobe PDF (.pdf)
Microsoft Word Format (.doc)
Abstract
We present a theory of discontinuous motion of particles in continuous space-time. We show that the simplest nonrelativistic evolution equation of such motion is just the Schroedinger equation in quantum mechanics. This strongly implies what quantum mechanics describes is discontinuous motion of particles. Considering the fact that space-time may be essentially discrete when considering gravity, we further present a theory of discontinuous motion of particles in discrete space-time. We show that its evolution will naturally result in the dynamical collapse process of the wave function, and this collapse will bring about the appearance of continuous motion of objects in the macroscopic world. Keywords: interpretation of quantum mechanics,discontinuous motion,dynamical collapse,discrete space-time,Planck energy Subjects: Specific Sciences: Physics: Quantum Mechanics
ID code: PITT-PHIL-SCI00000447 Deposited by: Shan Gao on 18 October 2001
Contact content administrator at: philsciarchive@philsci-archive.pitt.edu

65. PhilSci Archive: Quantum Mechanics And Discontinuous Motion Of Particles
PhilSci Archive, Quantum mechanics and discontinuous motion of particles. Shan,Gao (2002) Quantum mechanics and discontinuous motion of particles.
http://philsci-archive.pitt.edu/documents/disk0/00/00/07/75/
Quantum mechanics and discontinuous motion of particles
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Shan, Gao (2002) Quantum mechanics and discontinuous motion of particles. Full text available as: Adobe PDF (.pdf)
Abstract
We discuss a new realistic interpretation of quantum mechanics based on discontinuous motion of particles. The historical and logical basis of discontinuous motion of particles is given. It proves that if there exists only one kind of physical reality-particles, then the realistic motion of particles described by quantum mechanics should be discontinuous motion. We further denote that protective measurement may provide a direct method to confirm the existence of discontinuous motion of particles. Keywords: interpretation of quantum mechanics,particles,discontinuous motion,dynamical collapse,discrete space-time Subjects: Specific Sciences: Physics: Quantum Mechanics
ID code: PITT-PHIL-SCI00000775 Deposited by: Shan Gao on 27 August 2002
Contact content administrator at: philsciarchive@philsci-archive.pitt.edu
Contact system administrator at: administrator@philsci-archive.pitt.edu

66. Physics Regents Review - Mechanics
Physics Regents Review mechanics motion, velocity, acceleration, forcesReturn to Review Index. Return to Physics Zone. General Physics
http://www.sciencejoywagon.com/physicszone/review/01mechan/

67. Physics 1 Online Course Outline
Introduction. Measurement in mechanics. Rate of Change. motion in One Dimension.Constant Acceleration in One Dimension. Vector Arithmetic. motion in Two Dimensions.
http://mcasco.com/p1outln.html
The following run-time books relate to this course. Click on the book cover image for more information.
Physics 1 Online Course Outline
Introduction
Measurement in Mechanics
Rate of Change
Motion in One Dimension ...
The Nature of Space - Continued
Page Last modified: February 10, 2001
Email our support folks with questions or comments.
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68. APPLIED MATHEMATICS
One of CS 370 Numerical Computation AMATH /PMATH 331 Applied Real Analysis All ofPHYS 121 mechanics, Wave motion and Heat 1 PHYS 122 mechanics, Wave motion
http://www.adm.uwaterloo.ca/infoucal/MATH/app_math.html
Undergraduate Calendar 2003-2004
UW HOME CONTENTS NEXT PAGE PREVIOUS PAGE ... UP A P P L I E D M A T H E M A T I C S Applied Mathematics is motivated mathematics, or mathematics to a purpose. It reflects the belief that there exists a basic order and harmony in the universe which may be described by the logical structures of mathematics. Thus, it is no coincidence that some of the greatest mathematicians of the past were also interested in engineering and physics. In their first two years, all Applied Mathematics students take the same core courses as are taken by other Mathematics students, in order to acquire a sound mathematical background. At the same time, since the application of analytical reasoning to a wide variety of problems is the essence of Applied Mathematics, there is room for courses in scientific disciplines which are heavy users of mathematics, such as Physics or Engineering. In the upper years, the focus is on courses more specifically related to their chosen area of specialization. It is our experience that Applied Mathematics graduates find their career opportunities to be excellent and varied.
Honours Applied Mathematics
In conjunction with the common degree requirements in Table I in 'Degree Requirements' on page 11:5, this plan requires at least 26 math courses. These overall requirements must include the Faculty core courses outlined in

69. Courses Physics
PHYS 121 LEC,TUT 0.50, Course ID 007393. mechanics, Wave motion and Heat 1. mechanics,Wave motion and Heat 1 Laboratory. For students taking PHYS 121.
http://www.adm.uwaterloo.ca/infoucal/COURSE/course-PHYS.html
Undergraduate Calendar 2003-2004
UW HOME CONTENTS NEXT PAGE PREVIOUS PAGE ... UP P H Y S I C S
PHYS 00s
PHYS 1 LEC 0.00
Course ID: 010216 Pre-University Physics This course covers the topics in Ontario Grades 11 to 13 essential for first year university physics. Topics include: motion in one and two dimensions using vectors as appropriate, Newton's laws of motion applied using free body diagrams, energy, geometric optics, simple waves in one and two dimensions, electrical and magnetic effects. Successful completion of this course fulfills the University admission requirements where high school Physics is necessary. No University Credit. Offered by Distance Education only. Only offered by Distance Education
PHYS 10 LEC 0.00
Course ID: 009328 Physics Seminar This seminar brings together Honours Physics (Regular and Co- op) students in all years to hear invited speakers, view physics-related films, and learn about current research. [Offered: F,W,S]
PHYS 100s
PHYS 111 LEC,TUT 0.50 Course ID: 007388 Physics 1 An introduction to physics for students intending to concentrate their further studies in biology, dentistry, medicine and paramedicine; includes particle kinematics and dynamics, energy and momentum conservation, rotational mechanics, properties of liquids, temperature and heat. [Offered: F]

70. Resources For Middle School Science--1.73-- Methods Of Motion: An Introduction T
1.73 Methods of motion An Introduction to mechanics, Book One. Rev. ed. Jack E.Gartrell, Jr. Washington, DC National Science Teachers Association, 1992.
http://www.nap.edu/readingroom/books/rtmss/1.73.html
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Methods of Motion: An Introduction to Mechanics, Book One.
Rev. ed. Jack E. Gartrell, Jr. Washington, D.C.: National Science Teachers Association, 1992. Recommended grade level:
Methods of Motion contains 27 hands-on activities and demonstrations and 14 readings that introduce students to the concepts of mechanics. Organized in 6 modules, the activities address such topics as mass and force; constant speed versus acceleration; interactions of force, mass, and acceleration; applying the laws of motion; and "hidden" forces (such as friction and gravity) affecting motion. Sample activities include the following: building a simple inertial balance to demonstrate the concept of inertia, using a drip timer to calculate the speed and acceleration of a toy car, conducting marble races to discover if an object's mass affects the rate at which it rolls down an incline, and experimenting with a hair dryer blowing straight up to oppose the downward force of gravity acting on a ping pong ball. Methods of Motion begins with an overview. Each activity includes a reproducible student worksheet and an activity guide for teachers. Activities typically require 40 to 60 minutes to complete. Each activity guide includes background information, teaching procedures and tips, technical notes, suggestions for extensions, and answers to activity questions. The equipment required for the activities consists mainly of inexpensive toys and other low-cost materials.

71. Motion And Motion Dynamics - Science Projects, Physics Of Motion, Motion Studies
Home Page. General Physics. Fluid Dynamics. Light and Optics. Magnetism. motion mechanics. Home Page. Slink Swing. Gyros Blaster. Top Secret. Kinetic Art.Sound.
http://www.science-store.com/science/mechanics/sk000.htm
PHYSICS Home Page General Physics Fluid Dynamics Light and Optics ... Sound Elsewhere Tech: Machines Books on Physics Books on Machines Science Posters ... Kinetic Art Mobiles Feenixx Web-Shops.net stores: Anatomy-Resources.com Arthropod.net Critters-2-go.com
Astronomers.net
... National Banner Exchange

72. Tactics And Mechanics
Section 6 Tactics And mechanics. motion Control Continuous motion along a line- Uniform acceleration Continuous motion along a line - Variable acceleration
http://www.iancgbell.clara.net/maths/mchtct0.htm
Maths for (Games) Programmers Section 6 - Tactics And Mechanics
Motion Control
Continuous motion along a line - Uniform acceleration
Continuous motion along a line - Variable acceleration
Iterative linear motion along a line - Uniform acceleration
Iterative damped motion along a line
Continuous motion within the plane
Iterative damped motion in N-space - Variable acceleration
When and How To Launch Missiles
Fixed velocity missile at fixed velocity target Fixed velocity missile at accelerating target Accelerating missile at accelerating target
Collisions in 2D Fundamentals Reaction of a 2D Lamina to an impulse - Motion Matrices Case Zero: Cohesive Collisions Case One: Single Contact Point Collisions in 2D Case Two: Multiple Contact Point Collisions Case Three: Single Contact; Predefined Direction of Reaction Case Four: Multiple Contact; Predefined Directions of Reaction Subcollisions and Metacollisions Collisions in 3D Fundamentals Composite Solids Case Zero: Cohesion Case One: Single Contact Point Case Two: Multiple Contact Points Case Three: Single Contact; Predefined Direction of Reaction

73. AN INTRODUCTION TO NEWTONIAN MECHANICS (p.5)
AN INTRODUCTION TO NEWTONIAN mechanics by Edward Kluk Dickinson StateUniversity, Dickinson ND. HORIZONTAL PROJECTILE motion. A technical
http://physicsstudio.indstate.edu/java/newtmech/m_hproj_h.html
AN INTRODUCTION TO NEWTONIAN MECHANICS
by Edward Kluk
Dickinson State University, Dickinson ND HORIZONTAL PROJECTILE MOTION
A technical introduction

This applet simulates all kinds of projectile motion with low gravity acceleration and makes possible to time these motions. A motion can start from eleven marked heights at the distance m. Its initial speed and direction are selectable from three labelled choice boxes. If default sign "+" is selected, a selected projection angle counts counter clockwise from a dotted horizontal line. Otherwise it counts clockwise. Every time the red object reaches the edge of the vision field it stops and Reset button is activated. This button let us restore initial conditions for the last motion. The clear button restores default initial conditions for the motion and repaints the vision field. Finally, if the path tracer is on, a path of the object is drawn in the vision field.
If you switch to another page, minimize the browser ,or scroll this page losing the vision field (or part of it) from the screen and later come back to this applet, the vision field (or part of it) will be lost. To create an empty vision field click on the reset button(if it is active) and clear button, or just the clear button if the reset button is not active. Thus, if you want to make several "experiments" and compare them, please do not loose the view of this applet from the screen.

74. AN INTRODUCTION TO NEWTONIAN MECHANICS (p.4)
AN INTRODUCTION TO NEWTONIAN mechanics by Edward Kluk Dickinson StateUniversity, Dickinson ND. RECTILINEAR motion ON A HORIZONTAL PLANE.
http://physicsstudio.indstate.edu/java/newtmech/m_hmot_h.html
AN INTRODUCTION TO NEWTONIAN MECHANICS
by Edward Kluk
Dickinson State University, Dickinson ND RECTILINEAR MOTION ON A HORIZONTAL PLANE
A historical overview

A single push of an object resting on a rigid horizontal plane makes this object moving along a straight line. But after a while the object will stop. This simple observation is known for human beings for many thousands years. In 4th century BC Greek philosopher and scientist Aristotle postulated that keeping a body in motion with a constant speed demands a constant push. Or we may say, application of a constant force. But we have to admitt a vagueness of idea of force in this kind of statement. It does not tell us how to measure a force, then it does not have practically any scientific value. It took two thousands years and Isaac Newton to refine Aristotle's postulate and create fundamental theory of motion. Here we will make a first step in this direction.
Actually it is not difficult to perform a following experiment. Take a hockey puck, set it flat on a well leveled big sheet of sand paper and give it a single slight push. The puck will not move very far. Replace the sand paper by concrete surface, a board covered with formica, and finally a smooth ice surface. It is clear that the same push will make the puck to travel longer distance as we are changing the surfaces. Probably everybody would say that such results are obvious because in each consecutive case we deal with less friction. A point here is to imagine yourself what would happen if there were no friction at all. Well, it looks like the puck should move with a constant speed across such frictionless surface. Then Aristotle was not quite right because

75. Index For The Quantum Mechanics Examples
Index for 5½ Examples in Quantum mechanics. Home Page Falling motion in a LinearPotential One Dimensional classical motion PE, turning points, z(t), etc.
http://www.physics.csbsju.edu/QM/Index.html
HTTP 200 Document follows Date: Wed, 09 Apr 2003 20:26:47 GMT Server: NCSA/1.5.2 Last-modified: Thu, 23 Mar 2000 23:16:53 GMT Content-type: text/html Content-length: 7075
Home Page
  • Falling: Motion in a Linear Potential
  • One Dimensional
  • classical motion: PE, turning points, z(t) , etc.
  • length and energy scales ...
  • approximation methods: WKB, Rayleigh-Ritz (variational), perturbation theory
  • Two Dimensional
  • classical ballistic (projectile) motion
  • separation of variables
  • QM force-free motion: a moving lump of probability density
  • visualizing the moving lump of probability density ...
  • Problems
  • Simple Harmonic Oscillator
  • One Dimensional
  • classical motion: PE, turning points, x(t) , etc.
  • length and energy scales ...
  • raising and lowering operators
  • Two Dimensional
  • xy 1D products, r : Laguerre polynomials
  • degeneracy
  • QM "motion": an orbiting wavefunction
  • Three Dimensional
  • xyz 1D products, r : Laguerre polynomials
  • visualizing the wavefunctions in 3D
  • WKB approximation in 3D
  • Problems
  • Hydrogen Atom
  • classical motion: PE, turning points, Kepler's Laws, r(t) , etc.
  • length and energy scales ...
  • problems
  • Square Wells
  • One Dimensional
  • classical motion: PE, turning points,
  • 76. WAVE MOTION, INTELLIGENT STRUCTURES AND NONLINEAR MECHANICS
    1 WAVE motion, INTELLIGENT STRUCTURES AND NONLINEAR mechanics edited by ArdéshirGuran (The Catholic University of America) Daniel J Inman (Virginia
    http://www.wspc.com/books/engineering/2615.html
    Home Browse by Subject Bestsellers New Titles ... Browse all Subjects Search Keyword Author Concept ISBN Series New Titles Editor's Choice Bestsellers Book Series ... Series on Stability, Vibration and Control of Systems, Series B - Vol. 1
    WAVE MOTION, INTELLIGENT STRUCTURES AND NONLINEAR MECHANICS
    edited by Ardéshir Guran (The Catholic University of America)
    This book is a collection of papers on the subject of applied system dynamics and control written by experts in this field. It offers the reader a sampling of exciting research areas in three fast-growing branches: (i) Wave Motion (ii) Intelligent Structures (iii) Nonlinear Mechanics. The topics covered include flow instability, nonlinear mode localization autoparametric systems with pendula, and geometric stiffening in multibody dynamics. Mathematical methods include perturbation methods, modern control theory, nonlinear neural nets, and resonance scattering theory of Überall-Ripoche-Maze. Applications include sound-induced structural vibrations, fiber acoustic waveguides, vibration suppression of structures, linear control of gyroscopic systems, and nonlinear control of distributed systems. This book shows how applied system dynamics and control is currently being utilized and investigated. It will be of interest to engineers, applied mathematicians and physicists.

    77. Mechanics
    mechanics. To schedule a lecture demonstration Online. M15 Trip the CoinDevice. M-15.1 Free Fall Demonstration Using Ultrasonic motion Detector.
    http://www.physics.purdue.edu/reports/demo/Mechanics.html
    Mechanics To schedule a lecture demonstration Online

    78. Matter And Motion - Science Books
    Physics motion and mechanics. Only $5.95. Visit the motion and mechanics Departmentat Einsteins-Emporium.com. Energy What is Energy? Where does it come from?
    http://www.eduresources.net/science/physics/bsp50.htm
    Books The Universe Earth Sciences Animals Classic Science ... Technology Physics - Motion and Mechanics Eyewitness: Force and Motion
    More Information on Eyewitness Books

    an outstanding and original Eyewitness Guide. The world is constantly in motion created by force and, in an unending cycle, that motion is converted into yet more force. This collection of superb photographs and expert text vividly brings to life the forces that keep the world moving. If you have ever wondered how ancient cultures moved huge weights over vast distances, or transferred water uphill to irrigate arid regions, all is revealed in this book. How we can harness force efficiently in order to create motion has intrigued engineers and scientists for centuries. Archimedes, Galileo, and Newton all made significant discoveries, creating basic laws still used today as the basis of our understanding of the world's physical forces. Featuring historic scientific apparatus and ground-breaking experiments and discoveries, is a unique and exciting new look at this fascinating subject.

    79. What Quantum Mechanics Describes Is Discontinuous Motion Of Particles
    Date PrevDate NextThread PrevThread NextDate IndexThread IndexWhat quantum mechanics describes is discontinuous motion of particles.
    http://www.lns.cornell.edu/spr/2001-10/msg0035920.html
    Date Prev Date Next Thread Prev Thread Next ... Thread Index
    What quantum mechanics describes is discontinuous motion of particles
    • Subject : What quantum mechanics describes is discontinuous motion of particles From : lzyjs@263.net (Shan Gao) Date : Sun, 7 Oct 2001 16:33:38 GMT Approved : mmcirvin@world.std.com (sci.physics.research) Message-ID 177c7c92.0109292307.7bc110fa@posting.google.com Newsgroups : sci.physics.research,alt.sci.physics.new-theories,sci.physics.particle,sci.physics.relativity,sci.misc Organization : http://groups.google.com/ Sender : mmcirvin@world.std.com (Matt McIrvin)
    http://www.100megspopup.com/ecuq/articles/qm-ajp.pdf [Sci.physics.reserch moderator's note: It's worth repeating that we don't necessarily review in detail papers on the Web that are linked from s.p.r articles. -MM]

    80. SRT: Romeo And Juliet Behind The Curtain
    Romeo and Juliet The mechanics of motion. Walls magic. Join us for a viewof what makes Romeo and Juliet move in The mechanics of motion.
    http://www.seattlerep.org/BehindTheCurtain/ShowRJ.html
    Pictured: Romeo and Juliet set model Romeo and Juliet: The Mechanics of Motion Walls turn, changing an open courtyard into a warren of alleys and doorways. A bed rises from the floor, forming an intimate boudoir for Juliet. With a press of a button and the silent whisper of motors, the audience is transported from a high balcony, to thefriar's chamber, and then to a cold crypt all without leaving their seats. Ideas like these are easy enough to imagine, but how does the reality of machines and mechanics become stage magic? Behind The Curtain focuses on the mechanics of the magic. Join us for a view of what makes Romeo and Juliet move in The Mechanics of Motion Behind the Curtain: Concept to Design
    Behind the Curtain: From Page to Stage

    Behind the Curtain: Transforming Holes to Sets

    Behind the Curtain: As the World Turns...
    ...
    Behind the Curtain: Magic in Motion
    Behind The Curtain Cast of Characters Ralph Funicello
    Scenic Designer
    Ralph Funicello has designed 17 productions for Seattle Rep including The Beauty Queen of Leenane The Front Page Richard III Girl Crazy The Caucasian Chalk Circle , and The Cherry Orchard . He has also designed over 200 productions throughout the United States and Canada. He is an associate artist at the Old Globe Theatre in San Diego, and has worked extensively with the Mark Taper Forum, the South Coast Rep, and the American Conservatory Theatre. His work has been seen on and Off-Broadway and at the Lincoln Center Theatre, the Berkeley Rep, Manhattan Theatre Club, A Contemporary Theatre, the Milwaukee Rep, American Festival Theatre, Arizona Theatre Company, the Denver Center Theatre Company, Intiman Theatre, Oregon Shakespeare Festival, the Guthrie Theatre, the Stratford Festival in Ontario, and the New York City Opera. Mr Funicello is the Powell Chair In Set Design at San Diego State University.

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