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Strength of materials 2 past question for the year 2019 examines 300-level Engineering students of FUTO, offering ENG306 course on their knowledge of Strength of materials, maximum depletion, critical buckling loads, determinate straight beam, determinate curved beam, shear stress, inertia, Ritz method

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Past Questions related to Strength of materials 2

STRENGTH OF MATERIALS 2

Year: 2018

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG306

Topics: transverse force equilibrium, column, stress, failure, beam, thin plate

Strength of Materials

Year: 2022

School: Air Force Institute of Technology

Department: Engineering

Course Code: GET208

Topics: Strength of Materials, Stress, strain, stress transformation, torque, bending moments, shear stress, force, moment

Strength of materials 1

Year: 2019

School: University of Nigeria, Nsukka

Department: Engineering

Course Code: CVE211

Topics: Strength of materials, shear force, bending moment, beam, stress, working stress

Strength of materials

Year: 2020

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG305

Topics: Shear Force, Bending Moment, Torsion, Theory of Columns, Deflection of Beams, Axial and Flexural Bending Stress, Strength of materials

Strength of materials 2016,2017

Year: 2017

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG305

Topics: Shear stress, force, load, normal stress, stress, factor of safety, modulus of elasticity, modulus of rigidity, mohr's circle, beams, cantilever, deflection, deformation, flexural rigidity, columns

Strength of Materials

Year: 2020

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG305

Topics: uniaxial stress, biaxial stress, theory of columns, deflection of beams, bending stress, shear force, bending moment, torsion.column, beams

Trial questions on strength of materials 1

Year: 2019

School: University of Nigeria, Nsukka

Department: Engineering

Course Code: CVE211

Topics: strength of materials, free body diagram, shear force, bending moment, beam, truss

Strength of materials

Year: 2018

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG305

Topics: proportional limit, elastic limit, deformation, strain, tensile stress, failure strength, Mohr's circle

STRENGTH OF MATERIALS

Year: 2019

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG305

Topics: force, load, stress, strain, elasticity, plasticity, elastic limit, beam, modulus of resilience, column, cantilever

Strength of materials 1 Laboratory

Year: 2019

School: University of Nigeria, Nsukka

Department: Engineering

Course Code: CVE212

Topics: Strength of materials, deflection, tensile strain, shear strain, Modulus of rigidity

Trial questions on Strength of Materials 1

Year: 2020

School: University of Nigeria, Nsukka

Department: Engineering

Course Code: CVE211

Topics: Stress, strain, Axial

Mechanical properties of materials

Year: 2020

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: MME413

Topics: Materials mechanical properties, true strain, tensile test, true stress-strain curve, tensile uniaxial flow stress, uniform plastic deformation, ultimate tesnile strength

REINFORCED CONCRETE DESIGN 2-2012-2018

Year: 2018

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: STE518

Topics: column, beam, floor, shear, deflection, reinforcement, retaining wall, punching shear, yield line method, flat slab, slab, cantilever, dead load, preliminary design, bearing pressure analysis, stem wall design, stem wall reinforcement, axial load, unaxial moment, slender column

Theory of structures

Year: 2019

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ACE308

Topics: Structures theory, truss, truss parameters, trusses analysis, warren steel truss, bending moment, radial shear, normal thrust, Warren steel truss, horizontal deflection, maximum shear

Books related to Strength of materials 2

Strength of Material, Second Edition

Author: SS Rattan

School: Bayero University, Kano

Department: Engineering

Course Code: CIV3308

Topics: Simple stress, simple strain, Shear stress, Saint-Venant's principle, Stress, strain, Modulus of elasticity, Modulus of Rigidity, Bar elongation, Superposition principle, Tapering section Bars, Elongation due to self-weight, Uniform strength column, Statically indeterminate systems, Temperature stresses, Shrinking on, Strain analysis, Tensile test diagram, Elastic constants, Three-Dimensional stress systems, Compound stress, compound stress, Principal stresses, Maximum shear stresses, Mohr's Stress cycle, Three coplanar stress, Ellipse of Stress, Strain Analysis, Principal Strain, Principal shear strain, Mohr's Strain cycle, Strain Energy, Shear force, Bending moment, Supports types, Bending stress in beams, Simple bending theory, Moment of inertia, Flitched beams, composite beams, Unsymmetrical bending, Ellipse of inertia, Shear stress in beams, Shear stress variation, Built-up beams, Shear centre, Deflection, Beam differential equation, Deflection at a point, Macaulay's method, Moment-Area method, Strain energy due to bending, Castigliano's First theorem, Deflection by castigliano's Theorem, Impact loading on beams, conjugate beam method, Betti's reciprocal deflections theorem, Maxwell's Reciprocal Deflection theorem, Fixed beams, Continuous beams, Fixidity Effects, Clapeyron's three moment equation, Torsion, Springs, Columns, Struts, Failure Theories, Plastic bending, Plane frame structures, Materials properties, Materials testing, Tensile testing, Compression testing, Torsion testing, Hardness testing, Impact testing, Fatigue testing

Applied Strength of Materials, 6th Edition

Author: Robert Mott, Joseph Untener

School: Bayero University, Kano

Department: Engineering

Course Code: CIV3308

Topics: Direct Normal stress, stress, strain, Direct shear stress, Screw Threads, Experimental stress analysis, Computational stress analysis, Fundamental of statics, Materials design properties, Properties of steel, Properties of Cast Iron, Properties of Aluminum, Wood, Concrete, Plastics, Composites, Direct stress, Deformation, Computing design stress, Thermal stress, Bearing stress, Design bearing stress, Twisting, Elastic Torsional Deformation, Torsion, Beam loading, Beams supports, Beam types, Supports reactions, Centroids, Complex shapes centroid, Radius of Gyration, section modulus, Flexure formula, General shear formula, Special shear formulas, Shear flow, Beams deflection, combined stress, Columns, Slenderness Ratio, Buckling formula, Pressure vessels, Bolted connections design, Rivet joints, Eccentrically loaded riveted joints, Eccentrically loaded Bolted joints

Strength of materials

Author: Barry dupen

School: University of Benin

Department: Engineering

Course Code: CVE211

Topics: Strength of materials, stress, strain, Poisson's ratio, thermal expansion, shear stress, thermal stress, pressure vessels, stress concetrations, Thin-Walled Pressure Vessels, Bolted Welded Joints, Welded Joints, centroid, centroidal area, Radius of Gyration, Beam Reactions, Shear Diagrams, Moment Diagrams, Beam Deflection, beam design, Combined Stresses, Eccentric Loading, Buckling of Columns, columns, steel machine parts, Mohr's Circle

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

Prestressed Concrete A Fundamental Approach, Fifth edition

Author: Edward Nawy

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: STE509

Topics: fiber stress, stress-strain curve of concrete, creep, shrinkage, nonprestressing reinforcement, ACI Maximum permissible stress, AASHTO maximum permissible stress, circular prestressing, elastic shortening of concrete, steel stress relaxation, creep loss, shrinkage loss, anchorage-seating loss, service-load design, composite beam, ultimate-strength flexural design, shear strength, torsional strength, web-shear reinforcement, dowel reinforcement, torsional behavior, indeterminate frame, indeterminate portal, camber, deflection, crack control, prestressed compression, tension member, LRFD, seismic shear

Craig's Soil Mechanics, 7th edition

Author: RF Craig

School: Bayero University, Kano

Department: Engineering

Course Code: CIV3304

Topics: Soil mechanics, Soils basic characteristics, Soils nature, Particle size analysis, fine soils plasticity, Soil description, Phase relationships, Soil compaction, Seepage, Soil water, Permeability, Seepage theory, Flow nets, Anisotropic soil conditions, Non-homogenous soil conditions, Transfer condition, Grouting, Frost heave, Effective stress, effective stress principle, Partially saturated soils, Shear strength, Shear failure, Shear strength tests, Sands shear strength, Saturated clays Shear strength, Pore pressure coefficients, Stresses, displacements, Elasticity, Plasticity, Stresses from elastic theory, Displacement from elastic theory, Lateral earth pressure, Rankine's theory of earth pressure, Coulomb's theory of earth pressure, Gravity walls, Embedded walls, Braced excavations, Diaphragm walls, Reinforced soil, Slopes stability, Plane translational slip analysis, long-term stability, Embankment dams, Ground investigation, Borehole logs, Geophysical methods, Ground contamination

Strength of materials, Fifth edition

Author: RK Rajput

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG305

Topics: stress, strain, centroid, inertia, bending moment, shear force, deflection of beams, fixed beam, continous beam, thin shells, joint, shafts, spring, column, struts

Introduction to strength of materials, fourth edition

Author: RK Bansal

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG305

Topics: stress, strain, elastic constant, strain energy, shear force bending moment, center of gravity, moment of inertia, bending stress, deflection of beam, dam, deflection of cantilever

Design of Structural Elements

Author: WMC McKenzie

School: Bayero University, Kano

Department: Engineering

Course Code: CIV3307

Topics: Structural elements design, Structural Analysis Techniques, Shear Force, Bending moment, Shear force diagram, Bending moment diagram, Deflection of Beams, Elastic Shear stress distribution, Elastic Bending stress distribution, Transformed sections, Moment distribution, Bending stiffness, Rotational Stiffness, Carry-over moment, Pinned End, Free Moments, Fixed bending moments, Distribution Factors, Design Philosophies, Permissible stress Design, Load Factor Design, Limit State Design, Design codes, Eurocodes, National Annex, Structural Loading, Dead loads, Imposed loads, Imposed roof loads, Floor load distribution, Load distribution, Structural Instability, Overall Stability, Robustness, Reinforced concrete Element's Design, Structural Steelwork Elements' Design, Structural Timber Elements' Design.

Strength of materials material

Author: GRANIT CHIKA

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG305

Topics: Tensile stress, Compressive test, Strain, deformation, force, load, shearing forces, bending moments, beam, bending stress, flexural stress, colums, torsion, Strength of materials

Introduction to Materials for Advanced Energy Systems

Author: Colin Tong

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: MCE403

Topics: Advanced Energy Systems, Energy resource, energy system development, energy process characterization, energy calculations, energy accounting, sustainable energy development, Dynamic Mechanical Spectroscopy, nano-scale material, micro-scale material, nanoindentation, optical microscopy, electron microscopy, atom probe tomography, advanced x-ray characterization, neutron scattering, phase transformation temperatures, density, specific gravity, thermal conductivity, thermal expansion, electrical conductivity, electrical resistivity, permittivity, permeability, corrosion, oxidation, toughness, materials design, materials modeling, advanced coatings, photovoltaic materials, hybrid solar cells, thermal storage materials, phase change materials, Geothermal electricity, geothermal heat pump, wind resources, wind machinery, energy-generating systems, wind turbine, hydropower technology, ocean energy, hydrogen generation technology, fuel cells, advanced nuclear energy, fission reactors, fusion reactors, thermoelectric materials, piezoelectric materials, pyroelectric materials, magnetostrictive materials, multiferroic magnetoelectric materials, triboelectric materials, artificial photosynthesis

Strength of Materials and Structures

Author: John Case, Lord Chilver, Carl Ross

School: University of Nigeria, Nsukka

Department: Engineering

Course Code: CVE212

Topics: Tension, compression, direct stresses, Pin-jointed frames, Pin-jointed trusses, Shearing stress, joints, connections, Bending moment, shearing force, centroid, bending stress, Built-in beam, continuous beam, Energy methods, plate differential methods, matrix algebra, finite element method, Structural vibrations

Strength of Materials Laboratory

Author: Steven Fx

School: University of Nigeria, Nsukka

Department: Engineering

Course Code: CVE212

Topics: Strength of Materials, Young's modulus, tensile test, modulus of rigidity, deflection, load, depth of beam

Reinforced Concrete Design To Eurocode 2

Author: Bill Mosley, John Bungey, Ray Hulse

School: Bayero University, Kano

Department: Engineering

Course Code: CIV3307

Topics: Reinforced Concrete Design, Design processes, composite action, stress-strain relations, shrinkage, thermal movement, creep, materials specification, Limit state design, Characteristics material strengths, Combination of actions, Load combinations, Beams analysis, Frames Analysis, Shear wall structures resisting horizontal loads, Moments redistribution, Rectangular-parabolic stress block, Triangular stress block, Shear, bond, Torsion, Anchorage bond, span-effective depth ratio, deflection calculation, flexural cracking, Thermal cracking, Shrinkage cracking, Reinforced concrete beams design, Reinforced concrete slabs design, Column design, column classification, slender column design, Foundations design, Retaining walls design, Prestressed concrete, Water-retaining structures, composite construction, Footings, Reinforcement details, Shear connector design

strength of materials lecture note

Author: unknown

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG305

Topics: strength of materials

Building Materials, Revised Third Edition

Author: SK Duggal

School: Bayero University, Kano

Department: Engineering

Course Code: CIV3302

Topics: Building Materials Principal Properties, Structural Clay Products, Brick's Classification, Brick's Testing, Clay Tiles, Terracotta, Porcelain, stoneware, Earthenware, Glazing, Rocks, Stones, Rock-forming minerals, Rock's Classification, Stone Durability, Stones Application, Stone seasoning, wood, wood Products, Trees Classification, Trees growth, Timber Preservation, Timber testing, Timber Structure, Timber's Fire Resistance, Properties of wood, wood products, wood-products applications, Material for making concrete, Cements, Portland cement, Raw materials chemical composition, Cement Hydration, Rate of Hydration, Hydration water requirement, Cements manufacturing, Cements testing, Cement Types, Cements storage, Aggregates, Aggregates classification, Aggregates characteristics, Deleterious Materials, Organic Impurities, Soundness, Aggregates Thermal Properties, Fine Aggregates, Coarse Aggregates, Cinder Aggregates, Mixing water Quality, Effect of mixing water from different source, Water for washing aggregates, Curing water, Lime, Limestone's Impurities, Limestone's Storage, Lime Vs Cement, Pozzolanas, Concrete, water-cement ratio, workability, Maturity, Defects, Re-vibration, Rheology, Non-destructive testing, Admixture for concrete, Concrete Mix design, Building Mortars, Ferrous Metals, Non-Ferrous Metals, Ceramic Materials, Polymeric Materials, Paints, Enamels, Varnishes, Tar, Bitumen, Asphalt, Gypsum, Special Cements, Cement Concretes, Adhesives, Water proofing materials, Fiber, Geosynthetics, Composite Materials, Smart materials, Asbestos, Thermoc0ol, Heat Insulating Materials, Sound Insulating Materials.

strength of materials

Author: ENG305

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG305

Topics: Tension, Compression, and Shear, Deflection

Table of Selected Moments of Inertia(MOMI Table)

Author: ENG305

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG305

Topics: Inertia, central axis

Foundations of Materials Science and Engineering, sixth edition

Author: William Smith, Javad Hashemi, Francisco Presuel-Moreno

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG207, ENG208

Topics: Atomic Structure, Atomic Bonding, Crystal structure, Amorphous Structure, Solidification, Crystalline Imperfections, Engineering Alloys, Phase Diagrams, Polymeric Materials, ceramics, Composite Materials, corrosion, light, superconductive materials, magnetic properties, biological materials, biomaterials, smart materials, bond, cubic unit cell, diffusion, alloy, metal, stress, strain, Poisson ratio, plastic deformation, gibbs phase rule, cooling curves, copper, iron, steel, cast iron, aluminum, magnesium, titanium, nickel, thermoplastic, thermost, elastomer, rubber, glass, concrete, asphalt, wood, sandwich structures, corrosion rates, metal-matrix, ceramic-matrix, galvanic cells, microelectronics, nanoelectronics, semiconductors, light, electromagnetic spectrum, laser, luminescence, optical fibers, superconducting materials, ferromagnetic, magnetic field, ferromagnetism, tendon, ligament, articular cartilage

Design of structural elements, 3rd Edition

Author: Chanakya Arya

School: Bayero University, Kano

Department: Engineering

Course Code: CIV3307, CIV4204, CIV5405

Topics: Structural Design, Design Philosophy, Design Basics, Basic structural concepts, materials properties, Design loads acting on structures, Design loads acting on elements, Structural analysis, Beam design, Column design, British Standard Structural design, Beams, Slabs, Foundations, Retaining walls, Design in structural steelwork to BS5950, Iron, Steel, Design Strength, Connections Design, Design in unreinforced masonry, Design in timber to BS5268, Structural design to Eurocodes

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