Hard Magnetic Materials Books
Exercises for the Feynman Lectures on Physics
Author: Richard Feynman, Robert Leighton, Matthew Sands, Michael Gottlieb, Rudolf Pfeiffer
School: University of Ilorin
Department: Science and Technology
Course Code: PHY115, PHY214, PHY243, PHY314, PHY152, PHY252, PHY353, PHY354, PHY461, PHY462
Topics: Motion, Probability, Gravitation, Dynamics, Momentum, Vector, force, work, Electromagnetism, Differential Calculus, Vector Fields, Vector Integral Calculus, Electrostatics, Gauss Law, Electric Field, Electrostatic Energy, Dielectrics, Electrostatic Analogs, Magnetostatics, Magnetic Field, Vector Potential, Induced Current, motor, generator, transformer, inductance, induction, maxwell equation, Principle of Least Action, AC Circuit, Cavity Resonator, Waveguide, Electrodynamics, Lorentz Transformation, Field Energy, Field Momentum, Electromagnetic Mass, Tensors, Refractive Index, Magnetism, Ferromagnetism, Magnetic Materials, Elasticity, Elastic Materials, Curved Space, Quantum Behavior, Particle Viewpoints, Probability Amplitudes, Identical Particles, Spin One, Spin One-Half, Hamiltonian Matrix, Ammonia Maser, Two-State Systems, Hyperfine Splitting, Crystal Lattice, Semiconductors, Independent Particle Approximation, Symmetry, Conservation Laws, Angular Momentum, Hydrogen Atom, Periodic Table, Operators, Schrodinger Equation, Superconductivity
Author: Richard Feynman, Robert Leighton, Matthew Sands, Michael Gottlieb, Rudolf Pfeiffer
School: University of Ilorin
Department: Science and Technology
Course Code: PHY115, PHY152, PHY252, PHY353, PHY354
Topics: Electromagnetism, Differential Calculus, Vector Fields, Vector Integral Calculus, Electrostatics, Gauss Law, Electric Field, Electrostatic Energy, Dielectrics, Electrostatic Analogs, Magnetostatics, Magnetic Field, Vector Potential, Induced Current, motor, generator, transformer, inductance, induction, maxwell equation, Principle of Least Action, AC Circuit, Cavity Resonator, Waveguide, Electrodynamics, Lorentz Transformation, Field Energy, Field Momentum, Electromagnetic Mass, Tensors, Refractive Index, Magnetism, Ferromagnetism, Magnetic Materials, Elasticity, Elastic Materials, Curved Space
Materials for engineering ,Third edition
Author: John Martin
School: Federal University of Technology, Owerri
Department: Engineering
Course Code: ENG207, ENG208
Topics: engineering materials, mechanical properties, Metals, alloys, Glass, ceramics, Organic polymeric materials, Composite materials, Crystal structure, Microstructure, tensile test, bend testing, Hardness testing, Fracture toughness testing, Glass ceramics, Cement, concrete, Bulk metallic glasses, Cellular solids
Automotive Engineering Lightweight, Functional and novel materials
Author: Brian cantor, Patrick Grant, Colin Johnson
School: Federal University of Technology, Owerri
Department: Engineering
Course Code: ATE403
Topics: Future Vehicles, Future Materials Technologies, Automobile Aluminum Sheet, Plastic Technology for Automotive Modules, Functional Materials, Automotive Catalysts, Magnetorheological Fluids, Impact Loading, High-Temperature Electronic Materials, Smart Materials, Light Metals, Formability of Aluminum Alloys, Ductile Magnesium, Enhancement of Crashworthiness in Cellular Structures, Compressive Properties of Cellular Metals, Heavily Deformable Al Alloy, Stainless Steel Sandwich Sheets with Fibrous Metal Cores, Processing metal, Manufacturing metal, Welding metal, Joining metal, Titanium Aluminide-Based Intermetallic Alloys, Casting Processes, Casting Simulation Tools, Damage Tolerance in Composite Structures, High-Performance Autosport Surface TreatmentsComposites
Lewis's Medical-Surgical Nursing ,11th edition
Author: Mariann Harding, Jeffrey Kwong, Dottie Roberts, Debra Hagler, Courtney Reinisch
School: University of Ibadan
Department: Medical, Pharmaceutical and Health science
Course Code: NSG217
Topics: Professional Nursing, Nursing Practice, Health Equity, Culturally Competent Care, Health History, Physical Examination, Patient, Caregiver Teaching, Chronic Illness, Older Adults, Stress Management, Sleep, Sleep Disorders, pain, Palliative Care, End-of-Life Care, Substance Use Disorders, Inflammation, Healing, genetics, Immune Response, Transplantation, infection, cancer, Fluid Imbalance, Electrolyte Imbalance, Acid-Base Imbalance, Homeostasis, Perioperative Care, Intraoperative Care, Postoperative Care, Altered Sensory Input, Visual Problems, auditory problems, Integumentary System, Integumentary Problems, burns, Oxygenation, Ventilation, Respiratory System, Upper Respiratory Problems, Lower Respiratory Problems, Obstructive Pulmonary Diseases, Hematologic System, Hematologic Problems, Cardiovascular System, perfusion, hypertension, Coronary Artery Disease, Acute Coronary Syndrome, heart failure, Dysrhythmias, Inflammatory Disorders, Structural Heart, Disorders, Vascular Disorders, Gastrointestinal System, Nutritional Problems, obesity, Upper Gastrointestinal Problems, Lower Gastrointestinal Problems, Liver, Biliary Tract, Pancreas, Urinary Function, Urinary System, Renal Problems, Urologic Problems, Acute Kidney Injury, Chronic Kidney Disease, Endocrine System, Diabetes Mellitus, Endocrine Problems, Reproductive System, Breast Disorders, Sexually Transmitted Infections, Female Reproductive Problems, Male Reproductive Problems, Nervous System, Acute Intracranial Problems, stroke, Chronic Neurologic Problems, dementia, delirium, Spinal Cord Problems, Peripheral Nerve Problems, Musculoskeletal System, Musculoskeletal Trauma, Orthopedic Surgery, Musculoskeletal Problems, Arthritis, Connective Tissue Diseases, Critical Care, Shock, Sepsis, Multiple Organ Dysfunction Syndrome, Acute Respiratory Failure, Acute Respiratory Distress Syndrome, Emergency Nursing, Disaster Nursing, Nursing
Properties and strength Of Materials
Author: Muhannad Zedan
School: Bayero University, Kano
Department: Engineering
Course Code: CIV3308
Topics: strength Of Materials, Simple stress, simple strain, Elastic materials, Hooke's law, Modulus of elasticity, Young's modulus, Brittle materials, Poisson's ratio, Shear stress, Modulus of rigidity, Double shear, Temperature stresses, Compound bar, Cantilever beams, Simple beams, Shear force, bending moment, Shear force diagram, bending moment diagram, Torsion, Crystalline structure, Metals crystalline structure, Atomic bonding, crystal structure, Body-centered cubic structure, Face-centered cubic structure, Hexagonal close-packed structure, grain structure, grain boundary, polymorphism, Slope of beams, deflection of beams, Fatigue, creep, Fracture, Creep test, Fracture mechanics, Linear fracture mechanics, Griffith's fracture criterion
Computer Hardware Installation
Author: John Temitope Ogbiti
School: Edo University
Department: Science and Technology
Course Code: CMP317, CSC317
Topics: Hardware Installation, computer Hardware Components
Fundamentals of Engineering Materials
Author: Adebisi
School: Air Force Institute of Technology
Department: Engineering
Course Code: GET212
Topics: material engineering, material science, performance, ceramics, polymers, composites, advanced materials, semiconductors, biomaterials, nanomaterials, thermal property, electrical property, optical property, magnetic property, nanotechnology
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
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