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السنة الأولى: المستوى 1
MATH 118: Mathematics |
Concepts and manipulations in algebra. Trigonometry. Elementary analytic geometry and Linear Algebra. Introduction to concepts of calculus. Preparation for rigorous study of mathematics. |
Credit: 3 | Lecture: 3 | Lab: 0 | Tutorial: 0 | Prerequisite: — |
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السنة الأولى: المستوى 2
MATH 227: Calculus (1) |
Limits and continuity of functions of a single variable. Differentiability. Techniques of differentiation. Implicit differentiation. Local extrema, first and second derivative tests for local extrema. Concavity and inflection points. Curve sketching. Applied extrema problems. The Mean Value Theorem and applications. |
Credit: 3 | Lecture: 3 | Lab: 0 | Tutorial: 0 | Prerequisite: MATH 118 |
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PHYS 103: General Physics I |
The first course of calculus-based, general physics sequence. Topics covered include Units, changing units, 1D motion, vectors and scalars, 2D and 3D motion, Newton’s laws, friction, kinetic energy, and work. particle kinematics and dynamics; conservation of energy and linear momentum; rotational kinematics; rigid body dynamics; conservation of angular momentum; simple harmonic motion; gravitation; the static and dynamics of fluids. |
Credit: 4 | Lecture: 3 | Lab: 2 | Tutorial: 0 | Prerequisite: MATH 227 |
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السنة الثانية: المستوى 3
CHEM 106: General Chemistry |
Matter, atomic structure and the periodic table, chemical bonding, stoichiometry of pure substances, the reaction in aqueous solutions, states of matter (gases, liquids, and solids), mixtures (with emphasis on some physical aspects of solutions), thermochemistry. |
Credit: 4 | Lecture: 3 | Lab: 2 | Tutorial: 0 | Prerequisite: — |
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MATH 228: Calculus (2) |
Definite and indefinite integrals of functions of a single variable. Fundamental Theorem of Calculus. Techniques of integration. Hyperbolic functions. Applications of the definite integral to area, volume, arc length and surface of revolution. Improper integrals. Sequences and series: convergence tests, integral, comparison, ratio and root tests. Alternating series. Absolute and conditional convergence. Power series. Taylor and Maclaurin series. |
Credit: 3 | Lecture: 3 | Lab: 0 | Tutorial: 0 | Prerequisite: MATH 227 |
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PHYS 203: Physics (2) |
A continuation of PHYS 103. Topics covered include wave motion and sound; temperature, first and second laws of thermodynamics; kinetic theory of gases; coulomb’s law; the electric field; Gauss law; electric potential; capacitors and dielectrics; D.C circuits; the magnetic field; ampere’s and Faraday’s laws. |
Credit: 3 | Lecture: 3 | Lab: 0 | Tutorial: 0 | Prerequisite: PHYS 103 |
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ME 131: Engineering Drawing |
Introduction and importance of engineering drawing, Manual drawing, drawing instruments and their uses, conventions in drawing, geometrical constructions, scales, curves in engineering practice, principles of projections, projections of points, lines, planes and solids, orthogonal projection, isometric pictorial drawings using drawing tools and freehand, rules of writing dimensions, deduction of missing projection, section drawing, surface developments, the relation between point, straight line and plane, the intersection of planes, engineering applications. |
Credit: 2 | Lecture: 0 | Lab: 5 | Tutorial: 0 | Prerequisite: — |
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السنة الثانية: المستوى 4
ME 118: Thermal Engineering (For Non-ME students) |
Introduction to thermodynamics: Thermodynamical systems. Temperature and the zeroth law of thermodynamics. The first law of thermodynamics: Open and closed systems. The second law of thermodynamics: Thermal engine. Carnot’s efficiency. Gas turbine: Brayton’s cycle. Steam turbine: Rankine cycle. Steam compression refrigeration systems. Conductive heat transfer: Overall heat transfer coefficient. Convective heat transfer: Free and forced convection mechanism. Radiative heat transfer: Electromagnetic spectrum and radiation physics. Kirchoff’s law. Black-body radiation. Grey and real bodies. Radiation functions. |
Credit: 3 | Lecture: 3 | Lab: 0 | Tutorial: 1 | Prerequisite: PHYS 203 |
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ME 132: Engineering Design |
Developing a mathematical model by spreadsheet. Introduction to models. Real world versus model world. The use of heuristics in modelling. Model calibration. Introduction to project management models. Building Optimization model. Creating subjective models. Communication Skills. |
Credit: 3 | Lecture: 2 | Lab: 2 | Tutorial: 0 | Prerequisite: ME 131 |
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ME 133: Dynamics |
Kinematics of rectilinear and curvilinear motion of particles. Dynamics of particles and systems of particles. Kinematics of rotation and plane motion of rigid bodies. Work and energy relations. Impulse and momentum principles. Dynamics of rigid bodies in plane motion. |
Credit: 3 | Lecture: 2 | Lab: 0 | Tutorial: 2 | Prerequisite: PHYS 103 |
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ME 137: Engineering Mechanics (For non-ME students) |
Introduction. Force Systems. Statics equilibrium. Distributed forces (centroids and moment area). Beams. Friction. Kinematics of particles. Planar kinematics of a rigid body. Kinetics of particle: force, work, and energy. Planner kinetics of rigid body: force, work and energy. |
Credit: 2 | Lecture: 2 | Lab: 0 | Tutorial: 1 | Prerequisite: PHYS 103 |
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ME 268: Materials Engineering (For non-ME students) |
Introduction to properties of engineering materials: mechanical, electrical and chemical. Fundamentals of crystallography. Impurities and imperfections in solids. Atomic vibrations and diffusion. Single phase metals and alloys: Elastic and plastic deformation, recrystallization, fracture, fatigue and creep. Multiphase materials; phase diagrams with emphasis on iron – iron carbide system. Heat treatment process such as annealing, normalizing and quenching. Studies of widely used engineering materials; steels, plastics, ceramics, concrete and wood. |
Credit: 2 | Lecture: 2 | Lab: 0 | Tutorial: 1 | Prerequisite: PHYS 103 |
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MATH 319: Calculus (3) |
Polar coordinates, polar curves, area in polar coordinates. Vectors, lines, planes and surfaces. Cylindrical and spherical coordinates. Functions of two and three variables, limits and continuity. Partial derivatives, directional derivatives. Extrema of functions of two variables. Double integrals, double integrals in polar coordinates. Triple integrals, triple integrals in cylindrical and spherical coordinates. |
Credit: 3 | Lecture: 3 | Lab: 0 | Tutorial: 0 | Prerequisite: MATH 228 |
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CHEM 206: Chemistry (2) |
Chemical equilibria (gases, acids and bases, and solubility quilibria), chemical kinetics, spontaneity of reactions, coordination chemistry, nuclear chemistry, electro chemistry,chemistry of selected representative elements, organic structure and reactions, chemistry of materials. |
Credit: 3 | Lecture: 2 | Lab: 2 | Tutorial: 0 | Prerequisite: CHEM 106 |
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السنة الثالثة: المستوى 5
ME 211: Thermodynamics (1) |
System and control volume concept. Properties of a pure substance. Work and heat. The first laws of thermodynamics as applied to system and control volume, internal energy, enthalpy. The second law of thermodynamics. Canrnot cycle, entropy, reversible and irreversible process. Applications of steady-state, steady-flow, uniform state, uniform-flow, and other processes. |
Credit: 3 | Lecture: 3 | Lab: 0 | Tutorial: 0 | Prerequisite: PHYS 203 |
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ME 234: Mechanical Drawing |
Graphical interpolation of machine components and assemblies through the study of orthographic projection to include auxiliary views; section drawings and full dimensioning; translation of design instruction into detailed and assembly drawing; Evolving details of components from assembly considerations. Detailing of components involving shafts, bearing, pulleys, gears, belts, brackets for assembly. drawing conventions including weldments, piping, referencing and surface finish notation; selection of tolerances based on design requirements. |
Credit: 2 | Lecture: 1 | Lab: 3 | Tutorial: 0 | Prerequisite: ME 131 |
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ME 251: Production Engineering & Workshop |
Limits, fits, tolerance charts. Part analysis, process selection and operations sequence planning. Integrating and combining operations. Workpiece control, cutting tools, dies, and work holding devices. Mechanized assembly and functional gaging. Metal cutting economics and process selection. |
Credit: 3 | Lecture: 2 | Lab: 3 | Tutorial: 0 | Prerequisite: ME 131 |
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ME 261: Materials Science |
Atomic bonding in solids, bonding forces and energies, primary and secondary bonds. The structure of crystalline solids, lattice, unit cell, and crystal systems, density computation, crystal directions and planes, linear and planar atomic densities. Impurities and imperfections in solids: point, line and interfacial defects. Atomic vibration and diffusion. Mechanical properties of materials. Elastic and plastic deformation and recrystallization. Phase diagrams of single phase and multiphase materials with emphasis on iron-iron carbide system (steel and cast iron). Thermal processing of materials and alloys: annealing, normalizing, quenching and tempering, composite materials, polymers. Impact, fracture, fatigue and creep properties and introduction to fracture mechanics. |
Credit: 3 | Lecture: 2 | Lab: 2 | Tutorial: 0 | Prerequisite: CHEM 106 |
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MATH 336: Differential Equations |
First order and first degree equations. The homogeneous differential equations with constant coefficients. The methods of undetermined coefficients, reduction of order, and variation of parameters. The Cauchy-Euler equation. Series solutions. Systems of linear differential equations. Applications. |
Credit: 3 | Lecture: 3 | Lab: 0 | Tutorial: 0 | Prerequisite: MATH 319 |
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السنة الثالثة: المستوى 6
STAT 354: Statistics and Probability |
Sample space, events, random variables, conditional probability, some discrete and continuous distributions, functions of random variables, sampling distributions, estimation and test of hypotheses. |
Credit: 3 | Lecture: 3 | Lab: 0 | Tutorial: 0 | Prerequisite: MATH 227 |
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ME 212: Thermodynamics (2) |
Power cycles, Rankine, reheat, and regenerative cycles. Maxwell relations, ideal and real gases, equations of state, generalized charts. Gas-vapor mixtures, psychometric charts, ideal solutions. Chemical reactions. Fuels and combustion processes. |
Credit: 3 | Lecture: 2 | Lab: 2 | Tutorial: 0 | Prerequisite: ME 211 |
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ME 252: Metal Forming |
Yield criteria for ductile metals- Flow theories – Strain hardening- Recrystallization. Fundamentals of metal forming-Effect of temperature, Speed and metallurgical microstructure on forming processes, mechanics of metal forming, Forging processes- equipment, defects, Types of rolling mills – Process variables – defects, Types of extrusion- Process variables- wire drawing- deep drawing- sheet metal working- high energy rate forming processes. |
Credit: 3 | Lecture: 2 | Lab: 2 | Tutorial: 0 | Prerequisite: ME 251 |
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ME 262: Mechanical Testing of Materials |
Testing and understanding the mechanical properties of engineering materials. Mechanical testing machines and types, materials characteristics, tensile and compression test, shear and torsion tests, hardness test and impact test. Creep and Fatigue test. |
Credit: 1 | Lecture: 0 | Lab: 3 | Tutorial: 0 | Prerequisite: ME 261 |
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ME 263: Mechanics of Materials |
Concept of strain and deformation- Lagrangian and Eulerian descriptions of motion, deformation – gradient tensor. Transformation of length, area and volume elements. Conservation laws and stress measures- transport theorems, balance of mass, momentum and angular momentum Cauchy theorem and problems. Stress and deformation of axially loaded members; thermal stresses; pressure vessels; energy concepts; torsion of circular and thin-walled sections; shear and bending moment diagrams in beams; elastic bending; shear stress in beams; compound stresses; stress transformation; deflection of beams and introduction to the concept of singularity functions. |
Credit: 2 | Lecture: 2 | Lab: 0 | Tutorial: 1 | Prerequisite: CE 111 |
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ME 271: Theory of Machines |
Kinematic analyzes of mechanisms, position, speed and acceleration of mechanisms, dynamic analysis of mechanisms, cams, balancing, dynamics of reciprocating mechanisms, gears, simple gyroscopic forces, governors, joints, belts, brakes, applications, introduction to mechanical vibration. |
Credit: 2 | Lecture: 2 | Lab: 0 | Tutorial: 1 | Prerequisite: ME 133 |
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السنة الرابعة: المستوى 7
ME 313: Fluid Mechanics |
Definition and properties of fluids. Fluid Statics with application. Basic fluid dynamic equations of continuity, energy and momentum with applications to different flow situations and flow measurement. Viscous effects, boundary-layer concepts, laminar and turbulent flow in pipes, open channel flow, fluid dynamics forces on immersed bodies. Modeling and dimensional similarity. Introduction to turbomachinery. |
Credit: 3 | Lecture: 3 | Lab: 3 | Tutorial: 0 | Prerequisite: ME 211 |
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ME 335: Machine Design (1) |
Design process, review of stress, strain and deformation analysis as applied to mechanical design; properties of material; review of static failure theories; designing against fatigue failures; element design; shaft, keys, couplings, power screws; bolted, riveted and welded joints. |
Credit: 2 | Lecture: 2 | Lab: 2 | Tutorial: 1 | Prerequisite: ME 234 |
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ME 364: Materials Engineering |
Basics of materials science, Defects and imperfections Solidification Theory, Metallurgical forming: Casting, rolling extrusion, drawing, development of grain structure for specific properties. Polymeric materials, Polymer processing: extrusion, injection molding blow molding, rotational molding, vacuum forming and related processes processing of cellular polymers, Composite materials, Processing of composites: lay-up methods, press / autoclave / resin transfer molding, pultrusion and filament winding, Powder metallurgy and ceramic materials: green fabrication methods, sintering, hot pressing, spark plasma sintering, development of microstructure in powder processed materials, Coating methods: PVD methods, CVD methods, electrodeposition and electroforming methods, joining: fusion welding, solid state welding, adhesive bonding and mechanical joining machining: Electro machining (electrochemical and electro-discharge) and mechanical machining. Semiconducting and superconducting materials, engineering applications. |
Credit: 2 | Lecture: 2 | Lab: 2 | Tutorial: 0 | Prerequisite: ME 261 |
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ME 372: System Dynamics |
Dynamics of mechanical, fluid, electrical and thermal systems. Equations of motion. Dynamic response to elementary systems. Modeling of Mixed Discipline Systems, Electromechanical systems, Hydraulic/Pneumatic systems, Electrohydraulic systems, Basic energy converters. Transfer functions models. Solution Methods of Dynamic Models, analytical solution of linear systems, root finding, pole-zero diagrams. Numerical simulation of dynamics of complex systems. Dynamic stability of systems. Laboratory sessions involve use of computers for simulation and analysis of dynamic systems. |
Credit: 3 | Lecture: 2 | Lab: 2 | Tutorial: 1 | Prerequisite: MATH 319 |
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السنة الرابعة: المستوى 8
ME 314: Heat Transfer |
An introduction to heat transfer by conduction, convection and radiation. Steady state solution applied to wall, sphere and pipe insulation, heat sources, and extended surfaces (fins). Unsteady heat transfer to plates, cylinders and spheres (Heisler charts). Black and gray body radiation systems and electrics network analogy. Practical hydraulic and thermal analysis of forced and natural convection system with application to heat exchangers. |
Credit: 3 | Lecture: 2 | Lab: 2 | Tutorial: 0 | Prerequisite: ME 212 |
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ME 315: Mechanical Measurements |
Fundamentals concepts and analysis of data gained from experiments, electronics instrumentations, measuring pressure, flow, and temperature, thermal properties, Measuring the force, power, torque, stress, lengths and areas measurement, limit gauges design, displacement, velocity, and angle measurement, surface, flatness and roughness measurements, measuring some mechanical elements such as springs and gears. |
Credit: 2 | Lecture: 1 | Lab: 2 | Tutorial: 0 | Prerequisite: ME 271 |
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ME 336: Machine Design (2) |
Design of elements; bearings (journal and anti-friction), springs, spur, helical, bevel and worm gears; flexible drives (belts and chains); clutches and brakes; design optimization. Laboratory sessions to supplement and to apply the material covered in the lectures. Consideration of manufacturing aspects of the design (limits and fits). Study of projects considering the different stages of their design, manufacturing and assembly. |
Credit: 3 | Lecture: 3 | Lab: 1 | Tutorial: 0 | Prerequisite: ME 335 |
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ME 373: Mechanical Vibrations |
Free and forced vibrations. Applications to systems with one, two and multi-degree of freedom. Viscous, hysteretic and Coulomb damping. Response to general periodic excitation. Transient vibration and the phase plane method. Principal and coupled coordinates. Dynamic vibration absorbers. Energy methods and Rayleigh’s principle. Laboratory sessions are devoted to applications and experiments to illustrate various phenomena studied. Vibration measuring instruments and measuring techniques are emphasized. |
Credit: 3 | Lecture: 3 | Lab: 1 | Tutorial: 0 | Prerequisite: ME 271 |
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MATH 410: Numerical Methods |
Roots of nonlinear equations. Solution of systems of linear and nonlinear algebraic equations. Numerical differentiation and integration. Interpolation, extrapolation, and approximation. Least-squares approximation and regression analysis. Numerical solution of ordinary differential equations. Introduction to error analysis. Engineering case studies. |
Credit: 3 | Lecture: 3 | Lab: 0 | Tutorial: 0 | Prerequisite: MATH 228 + CSC111 |
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ME 496: Summer Training |
A continuous period of eight weeks of summer training spent in the industry working in any of the fields of mechanical engineering. The training should be carried out in an organization with an interest in one or more of these fields. On completion of the program, the student is required to submit a formal written report of his work. |
Credit: 2 | Lecture: — | Lab: — | Tutorial: 0 | Prerequisite: ENG 357 and Department Approval |
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السنة الخامسة: المستوى 9
ME 453: Theory of Metal Cutting and Machining |
Metal Cutting; mechanics, Tool materials, Temperature, Cutting Forces, Wear and Tool Life considerations, tool geometry and chip formation, surface finish and machinability, optimization of cutting parameters; Machine Tools: generation and machining principles, Setting and operations on machines viz. Lathe, milling, shaping, slotting, planing, drilling, boring, broaching, grinding (cylindrical, surface, centreless), thread rolling and gear cutting machines; Tooling: jigs and fixtures, principles of location and clamping; Batch. Production and Mass Production, Operations on Capstan and Turret Lathes, Single Spindle Automats. Finishing: microfinishing operations like honing, lapping and superfinishing. |
Credit: 3 | Lecture: 2 | Lab: 2 | Tutorial: 0 | Prerequisite: ME 252 |
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ME 474: Automatic Control |
Classical control techniques, basic control actions. Block Diagrams, block diagram reduction, transfer functions. Analysis of control systems, stability, steady state error. Design of systems by means of root locus method, and Bode plots. Control system synthesis. Classical controllers types proportional, derivative and integral control actions. State variable feedback. Linear quadratic controller. Practical experiments, laboratory sessions involve utilization of control software for analysis and design of control systems. |
Credit: 3 | Lecture: 2 | Lab: 2 | Tutorial: 0 | Prerequisite: ME 372 |
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ME 498: Senior Design Project (1) |
A course that integrates various components of the curriculum in comprehensive engineering experience so that the basic sciences, mathematics, and engineering sciences which the student has learned in his freshman-to-senior years of study can be applied. It considers design of a complete project of system including establishment of objectives and criteria, formulation of the problem statements, preparation of specifications, consideration of alternative solutions, feasibility consideration, and detailed engineering designs. The design should take into consideration appropriate constraints such as economic factors, safety, reliability, ethics and environmental and social impact. Submission of a written report is an essential requirement for completion of the course. Team design projects, where appropriate, are highly encouraged. |
Credit: 1 | Lecture: 0 | Lab: 3 | Tutorial: 0 | Prerequisite: ENG357, ME 313, ME 335 and ME 372 |
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السنة الخامسة: المستوى 10
ME 416: Internal Combustion Engine |
Analysis of spark ignition, compression ignition, and gas turbine engines. Combustion processes in an actual system. Performance characteristics. Combustion abnormalities. Analysis of intake, fuel, and exhaust systems. Laboratory experiments will illustrate the topics discussed. |
Credit: 3 | Lecture: 2 | Lab: 2 | Tutorial: 0 | Prerequisite: ME 314 |
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ME 417: Renewable Energy |
Introduction to renewable energy. Overview of renewable energy technologies. Solar energy. Biomass and Bioenergy. Wind energy. Geothermal energy. Hydro power energy. Wave and tidal energy. Energy, economics and environmental assessments. |
Credit: 3 | Lecture: 2 | Lab: 3 | Tutorial: 0 | Prerequisite: ME 314 |
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ME 499: Senior Design Project (2) |
Continuation and completion of project started in ME 498. Oral presentation and submission of final written report of the design project are essential requirements for the completion of the course. |
Credit: 3 | Lecture: 0 | Lab: 7 | Tutorial: 0 | Prerequisite: ME 498 |
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