Magnetic Resonance Imaging Books
Electrical machines Complete lecture Note
Author: CK Joe-uzuegbu, I fabian
School: Federal University of Technology, Owerri
Department: Engineering
Course Code: PSE411
Topics: Magnetic field, Faraday law, motor, DC Machine, field control, Armature resistance control, DC Generator, Ac machines, induction machine, commutation
Engineering circuit analysis,Eight edition
Author: William Hayt, Jack Kemmerly, Steven Durbin
School: Federal University of Technology, Owerri
Department: Engineering
Course Code: EEE409, EEE301, EEE306, MCE310
Topics: circuit analysis, voltage laws, current laws, nodal analysis, mesh analysis, Handy Circuit Analysis Techniques, operational amplifier, capacitor, inductor, RL circuits, RC Circuits, RLC CIrcuit, Sinusoidal Steady-State Analysis, AC Circuit Power Analysis, Polyphase Circuits, Magnetically Coupled Circuits, Complex Frequency, Laplace Transform, Circuit Analysis in the s-Domain, Frequency Response, Two-Port Networks, Fourier Circuit Analysis
Electromechanical Devices Components Illustrated Sourcebook
Author: Brian Elliott
School: Federal University of Technology, Owerri
Department: Engineering
Course Code: MCE306
Topics: Electricity, mechanics, power sources, electrical controls, magnetic components, rotating components, heating, circuit protection, connectors, wire, conductors, acoustic devices, lightning, meters, vacuum tubes, sensors, electrostatics, electromechanical mechanisms, electrical schematics
Author: SL Kakani
School: Federal University of Technology, Owerri
Department: Engineering
Course Code: ENG207, ENG208
Topics: Atomic Structure, Electronic Configuration, Crystal Geometry, Crystal Structure, Crystal Defects, bond, electron theory, Photoelectric Effect, diffusion, mechanical test, alloy, phase diagram, phase transformation, heat treatment, deformation, oxidation, corrosion, thermal properties, optical properties, electrical properties, magnetic properties, semiconductors, superconductivity, polymers, elastomers, organic materials, composites, nanostructure, spintronics, crystal, whiskers, unit cell, Co-ordination Number, crystal Imperfections, Anisotropy, Frank-Read Source, Crystal Growth, bond, Drude-Lorentz Theory, Metallic Bonding, . Fermi-Dirac, Sommerfield Free-Electron Theory, Brillouin Zones, Energy Bands, Resistivity, Conductivity, Thermoelectricity, Einstein’s Photoelectric Equation, Photoelectric Cell, Fick’s Laws, Surface Diffusion, Atomic Model, Mechanical Tests, Hume-Rothery’s Rules, Lever Rule, Annealing, Mass Effect, Pyrometers, Elastic Deformation, Plastic Deformation, Twinning, Work Hardening, Strain Hardening, Season Cracking
Author: CPE FUOYE
School: Federal University, Oye-Ekiti
Department: Engineering
Course Code: CPE101
Topics: Computing system, Computer Users, software, Computing Environment, digital computer, analog computer, Hybrid Computer. Super computer, mainframes, microcomputers, central processing unit, Arithmetic Logical Unit, control unit, Output Devices, visual display unit, Optical Mark Reader, Magnetic Ink Character Recognition, scanner, mouse
Atomic structure lecture slide
Author: CHE156
School: University of Ibadan
Department: Science and Technology
Course Code: CHE156
Topics: JJ Thopmson, electric field, magnetic field, electron, Millikan oil experiment, proton, anode ray, atomic model, Rutherford experiment, Neutron, atomic number, mass number, relative atomic mass, mass spectrometer
Materials Science and Engineering An Introduction,10th edition
Author: William Callister, David Rethwish
School: Federal University of Technology, Owerri
Department: Engineering
Course Code: ENG207, ENG208
Topics: atomic structure, interatomic bonding, crystalline solids, crystals, atomic bonding, diffusion, dislocation, strengthening mechanisms, failure, mechanical properties, phase diagrams, phase transformations, alloy, ceramic, polymer, corrosion, degradation, composites, polymer synthesis, polymer processing, oxidation, electrical properties, magnetic properties, optical properties, thermal properties, unit cell, density computation, Polymorphism, Allotropy, Crystallographic points, Crystallographic directions, polycrystalline materials, anisotropy, X-ray diffraction, plastic deformation, point defects, atomic vibration, fick's law, Stress–Strain Behavior, Anelasticity, fatigue, creep, solubility limit, phase equilibria
Materials Science and Engineering, An Introduction ,8th Edition Solution Manual
Author: William Callister
School: Federal University of Technology, Owerri
Department: Engineering
Course Code: ENG207, ENG208
Topics: atomic structure, interatomic bonding, crystalline solids, crystals, atomic bonding, diffusion, dislocation, strengthening mechanisms, failure, mechanical properties, phase diagrams, phase transformations, alloy, ceramic, polymer, corrosion, degradation, composites, polymer synthesis, polymer processing, oxidation, electrical properties, magnetic properties, optical properties, thermal properties, unit cell, density computation, Polymorphism, Allotropy, Crystallographic points, Crystallographic directions, polycrystalline materials, anisotropy, X-ray diffraction, plastic deformation, point defects, atomic vibration, fick's law, Stress–Strain Behavior, Anelasticity, fatigue, creep, solubility limit, phase equilibria
The Science and Engineering of Materials ,Seventh Edition
Author: Donald Askeland, Wendelin Wright
School: Federal University of Technology, Owerri
Department: Engineering
Course Code: ENG207, ENG208
Topics: Materials Design, Atomic Structure, Atomic Bonding, interatomic spacing, amorphous materials, lattice, basis, unit cells, crystal structure, Allotropic Transformation, Polymorphic Transformation, Crystal Structures, unit cell, Covalent Structures, diffusion, Fick’s Law, Mechanical Properties, Tensile Test, stress, strain, Nanoindentation, Fracture Mechanics, Fatigue, Fatigue Test, creep, rupture, stress corrosion, Strain Hardening, Annealing, Hot Working, Nucleation, cooling curves, cast structure, casting, Directional Solidification, Single Crystal Growth, Epitaxial Growth, Phase Diagram, Phase Equilibrium, Dispersion Strengthening, Eutectic Phase Diagrams, Eutectoid Reaction, Martensitic Reaction, Tempering, Nonferrous Alloys, Glass-Ceramics, Polymers, Polymerization, Thermoplastics, elastomers, rubbers, adhesives, Composites, Particulate Composites, Fiber-Reinforced Composites, plywood, concrete, asphalt, Electronic Materials, semiconductors, insulators, Electrostriction, Piezoelectricity, Ferroelectricity, Magnetic Materials, Magnetization
The science and engineering of materials Instructors‘ Solution Manual, Fourth Edition
Author: Frank Askeland, Pradeep Phulé, Gregory Lea
School: Federal University of Technology, Owerri
Department: Engineering
Course Code: ENG207, ENG208
Topics: Materials Design, Atomic Structure, Atomic Bonding, interatomic spacing, amorphous materials, lattice, basis, unit cells, crystal structure, Allotropic Transformation, Polymorphic Transformation, Crystal Structures, unit cell, Covalent Structures, diffusion, Fick’s Law, Mechanical Properties, Tensile Test, stress, strain, Nanoindentation, Fracture Mechanics, Fatigue, Fatigue Test, creep, rupture, stress corrosion, Strain Hardening, Annealing, Hot Working, Nucleation, cooling curves, cast structure, casting, Directional Solidification, Single Crystal Growth, Epitaxial Growth, Phase Diagram, Phase Equilibrium, Dispersion Strengthening, Eutectic Phase Diagrams, Eutectoid Reaction, Martensitic Reaction, Tempering, Nonferrous Alloys, Glass-Ceramics, Polymers, Polymerization, Thermoplastics, elastomers, rubbers, adhesives, Composites, Particulate Composites, Fiber-Reinforced Composites, plywood, concrete, asphalt, Electronic Materials, semiconductors, insulators, Electrostriction, Piezoelectricity, Ferroelectricity, Magnetic Materials, Magnetization
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