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2.081J Plates and Shells (MIT) 2.081J Plates and Shells (MIT)

Description

This course explores the following topics: derivation of elastic and plastic stress-strain relations for plate and shell elements; the bending and buckling of rectangular plates; nonlinear geometric effects; post-buckling and ultimate strength of cold formed sections and typical stiffened panels used in naval architecture; the general theory of elastic shells and axisymmetric shells; buckling, crushing and bending strength of cylindrical shells with application to offshore structures; and the application to crashworthiness of vehicles and explosive and impact loading of structures. The class is taught during the first half of term. This course explores the following topics: derivation of elastic and plastic stress-strain relations for plate and shell elements; the bending and buckling of rectangular plates; nonlinear geometric effects; post-buckling and ultimate strength of cold formed sections and typical stiffened panels used in naval architecture; the general theory of elastic shells and axisymmetric shells; buckling, crushing and bending strength of cylindrical shells with application to offshore structures; and the application to crashworthiness of vehicles and explosive and impact loading of structures. The class is taught during the first half of term.

Subjects

plates | plates | shells | shells | engineering strain | engineering strain | strain measure | strain measure | bending moment | bending moment | structural plasticity | structural plasticity | membrane energy | membrane energy | green-lagrangian strain | green-lagrangian strain | bending theory of plates | bending theory of plates | buckling theory of plates | buckling theory of plates | raleigh-ritz quotient | raleigh-ritz quotient | local buckling | local buckling | plastic buckling | plastic buckling | cylindrical shells | cylindrical shells | axial load | axial load | lateral pressure | lateral pressure | hydrostatic pressure | hydrostatic pressure | torsion | torsion | bending boundary conditions | bending boundary conditions | strain-displacement | strain-displacement | 2.081 | 2.081 | 16.230 | 16.230

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2.081J Plates and Shells (MIT) 2.081J Plates and Shells (MIT)

Description

This course explores the following topics: derivation of elastic and plastic stress-strain relations for plate and shell elements; the bending and buckling of rectangular plates; nonlinear geometric effects; post-buckling and ultimate strength of cold formed sections and typical stiffened panels used in naval architecture; the general theory of elastic shells and axisymmetric shells; buckling, crushing and bending strength of cylindrical shells with application to offshore structures; and the application to crashworthiness of vehicles and explosive and impact loading of structures. The class is taught during the first half of term. This course explores the following topics: derivation of elastic and plastic stress-strain relations for plate and shell elements; the bending and buckling of rectangular plates; nonlinear geometric effects; post-buckling and ultimate strength of cold formed sections and typical stiffened panels used in naval architecture; the general theory of elastic shells and axisymmetric shells; buckling, crushing and bending strength of cylindrical shells with application to offshore structures; and the application to crashworthiness of vehicles and explosive and impact loading of structures. The class is taught during the first half of term.

Subjects

plates | plates | shells | shells | engineering strain | engineering strain | strain measure | strain measure | bending moment | bending moment | structural plasticity | structural plasticity | membrane energy | membrane energy | green-lagrangian strain | green-lagrangian strain | bending theory of plates | bending theory of plates | buckling theory of plates | buckling theory of plates | raleigh-ritz quotient | raleigh-ritz quotient | local buckling | local buckling | plastic buckling | plastic buckling | cylindrical shells | cylindrical shells | axial load | axial load | lateral pressure | lateral pressure | hydrostatic pressure | hydrostatic pressure | torsion | torsion | bending boundary conditions | bending boundary conditions | strain-displacement | strain-displacement | 2.081 | 2.081 | 16.230 | 16.230

License

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2.002 Mechanics and Materials II (MIT) 2.002 Mechanics and Materials II (MIT)

Description

This course provides Mechanical Engineering students with an awareness of various responses exhibited by solid engineering materials when subjected to mechanical and thermal loadings; an introduction to the physical mechanisms associated with design-limiting behavior of engineering materials, especially stiffness, strength, toughness, and durability; an understanding of basic mechanical properties of engineering materials, testing procedures used to quantify these properties, and ways in which these properties characterize material response; quantitative skills to deal with materials-limiting problems in engineering design; and a basis for materials selection in mechanical design. This course provides Mechanical Engineering students with an awareness of various responses exhibited by solid engineering materials when subjected to mechanical and thermal loadings; an introduction to the physical mechanisms associated with design-limiting behavior of engineering materials, especially stiffness, strength, toughness, and durability; an understanding of basic mechanical properties of engineering materials, testing procedures used to quantify these properties, and ways in which these properties characterize material response; quantitative skills to deal with materials-limiting problems in engineering design; and a basis for materials selection in mechanical design.

Subjects

beam bending | beam bending | buckling | buckling | vibration | vibration | polymers | polymers | viscoelasticity | viscoelasticity | strength | strength | ductility | ductility | stress | stress | stress concentration | stress concentration | sheet bending | sheet bending | heat treatment | heat treatment | fracture | fracture | plasticity | plasticity | creep | creep | fatigue | fatigue | solid materials | solid materials | mechanical loading | mechanical loading | thermal loading | thermal loading | design-limiting behavior | design-limiting behavior | stiffness | stiffness | toughness | toughness | durability | durability | engineering materials | engineering materials | materials-limiting problem | materials-limiting problem | materials selection | materials selection

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3.11 Mechanics of Materials (MIT) 3.11 Mechanics of Materials (MIT)

Description

Overview of mechanical properties of ceramics, metals, and polymers, emphasizing the role of processing and microstructure in controlling these properties. Basic topics in mechanics of materials including: continuum stress and strain, truss forces, torsion of a circular shaft and beam bending. Design of engineering structures from a materials point of view. Overview of mechanical properties of ceramics, metals, and polymers, emphasizing the role of processing and microstructure in controlling these properties. Basic topics in mechanics of materials including: continuum stress and strain, truss forces, torsion of a circular shaft and beam bending. Design of engineering structures from a materials point of view.

Subjects

beam bending | beam bending | circular shaft bending | circular shaft bending | truss forces | truss forces | continuum stress and strain | continuum stress and strain | polymers | polymers | metals | metals | ceramics | ceramics

License

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TALAT Lecture 2301: Design of Members

Description

This lecture gives background to calculation methods for aluminium members in order to understand the specific behavior of statically loaded aluminium alloy structures. Basic structural mechanic, design philosophy and structural aluminium alloys and product forms is assumed.

Subjects

aluminium | aluminum | european aluminium association | EAA | Training in Aluminium Application Technologies | training | metallurgy | technology | lecture | design | product | member | joint | static | safety | serviceability | geometrical imperfections | extruded profiles | welded profiles | residual stresses | mechanical properties | Bauschinger effect | heat affected zones | stress-strain relationship | strength | reduced strength | partial coefficients | resistance factors | gross section | net section | local buckling | cross section classes | slender plates | effective cross section | class 4 cross sections | deflections of beams | breathing | bending moment | yielding | slenderness parameter | element classification | effective thickness | welded section | section with holes | lateral torsional buckling | axial force | tensile force | compressive force | Euler load | squash load | flexural buckling | reduction factor | buckling length | splices | end connections | welded columns | columns with bolt holes | cut-outs | longitudinal welds | transverse welds | columns with unfilled bolt-holes | built-up members | intermediate stiffeners | edge stiffeners | single-sided rib | multi-stiffened plates | orthotropic plates | shear force | plate girder webs | shear buckling | shear resistance | webs with stiffeners | plate girders with intermediate stiffeners | corrugated webs | closely stiffened webs | concentrated loads | beam webs without stiffeners | beam webs with stiffeners | shear centre | closed sections | open sections | torsion without warping | torsion with warpin | bending and axial tension | bending and axial compression | strength of beam-column segments | rectangular section | strain hardening | plastic theory | I-section | H-section | thin walled cross sections | T-section | biaxial bending | linear stress distribution | shear lag | flange curling | lateral deflection | non-symmetrical flanges | corematerials | ukoer

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TALAT Lecture 3706: Bending and Folding

Description

This lecture describes the fundamentals of bending and folding aluminium sheet; it also describes different methods in design of folding tools. Background in production engineering and sheet metal forming and familiarity with the subject matter covered in TALAT This lectures 3701- 3705 is assumed.

Subjects

aluminium | aluminum | european aluminium association | EAA | Training in Aluminium Application Technologies | training | metallurgy | technology | lecture | machining | forming | forging | sheet | folding | fold geometries | drawn parts | bending | springback | bending line geometries | counter pressure | springback angle | yield stress | pre-straining | failure mechanism | tearing | pre-folding | pre-bending punches | bending forces | final folding | corematerials | ukoer

License

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TALAT Lecture 2301: Design of Members

Description

This lecture gives background to calculation methods for aluminium members in order to understand the specific behavior of statically loaded aluminium alloy structures. Basic structural mechanic, design philosophy and structural aluminium alloys and product forms is assumed.

Subjects

aluminium | aluminum | european aluminium association | eaa | talat | training in aluminium application technologies | training | metallurgy | technology | lecture | design | product | member | joint | static | safety | serviceability | geometrical imperfections | extruded profiles | welded profiles | residual stresses | mechanical properties | bauschinger effect | heat affected zones | stress-strain relationship | strength | reduced strength | partial coefficients | resistance factors | gross section | net section | local buckling | cross section classes | slender plates | effective cross section | class 4 cross sections | deflections of beams | breathing | bending moment | yielding | slenderness parameter | element classification | effective thickness | welded section | section with holes | lateral torsional buckling | axial force | tensile force | compressive force | euler load | squash load | flexural buckling | reduction factor | buckling length | splices | end connections | welded columns | columns with bolt holes | cut-outs | longitudinal welds | transverse welds | columns with unfilled bolt-holes | built-up members | intermediate stiffeners | edge stiffeners | single-sided rib | multi-stiffened plates | orthotropic plates | shear force | plate girder webs | shear buckling | shear resistance | webs with stiffeners | plate girders with intermediate stiffeners | corrugated webs | closely stiffened webs | concentrated loads | beam webs without stiffeners | beam webs with stiffeners | shear centre | closed sections | open sections | torsion without warping | torsion with warpin | bending and axial tension | bending and axial compression | strength of beam-column segments | rectangular section | strain hardening | plastic theory | i-section | h-section | thin walled cross sections | t-section | biaxial bending | linear stress distribution | shear lag | flange curling | lateral deflection | non-symmetrical flanges | corematerials | ukoer | Engineering | H000

License

Attribution-Noncommercial-Share Alike 2.0 UK: England & Wales Attribution-Noncommercial-Share Alike 2.0 UK: England & Wales http://creativecommons.org/licenses/by-nc-sa/2.0/uk/ http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

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TALAT Lecture 3706: Bending and Folding

Description

This lecture describes the fundamentals of bending and folding aluminium sheet; it also describes different methods in design of folding tools. Background in production engineering and sheet metal forming and familiarity with the subject matter covered in TALAT This lectures 3701- 3705 is assumed.

Subjects

aluminium | aluminum | european aluminium association | eaa | talat | training in aluminium application technologies | training | metallurgy | technology | lecture | machining | forming | forging | sheet | folding | fold geometries | drawn parts | bending | springback | bending line geometries | counter pressure | springback angle | yield stress | pre-straining | failure mechanism | tearing | pre-folding | pre-bending punches | bending forces | final folding | corematerials | ukoer | Engineering | H000

License

Attribution-Noncommercial-Share Alike 2.0 UK: England & Wales Attribution-Noncommercial-Share Alike 2.0 UK: England & Wales http://creativecommons.org/licenses/by-nc-sa/2.0/uk/ http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

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2.081J Plates and Shells (MIT)

Description

This course explores the following topics: derivation of elastic and plastic stress-strain relations for plate and shell elements; the bending and buckling of rectangular plates; nonlinear geometric effects; post-buckling and ultimate strength of cold formed sections and typical stiffened panels used in naval architecture; the general theory of elastic shells and axisymmetric shells; buckling, crushing and bending strength of cylindrical shells with application to offshore structures; and the application to crashworthiness of vehicles and explosive and impact loading of structures. The class is taught during the first half of term.

Subjects

plates | shells | engineering strain | strain measure | bending moment | structural plasticity | membrane energy | green-lagrangian strain | bending theory of plates | buckling theory of plates | raleigh-ritz quotient | local buckling | plastic buckling | cylindrical shells | axial load | lateral pressure | hydrostatic pressure | torsion | bending boundary conditions | strain-displacement | 2.081 | 16.230

License

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2.081J Plates and Shells (MIT)

Description

This course explores the following topics: derivation of elastic and plastic stress-strain relations for plate and shell elements; the bending and buckling of rectangular plates; nonlinear geometric effects; post-buckling and ultimate strength of cold formed sections and typical stiffened panels used in naval architecture; the general theory of elastic shells and axisymmetric shells; buckling, crushing and bending strength of cylindrical shells with application to offshore structures; and the application to crashworthiness of vehicles and explosive and impact loading of structures. The class is taught during the first half of term.

Subjects

plates | shells | engineering strain | strain measure | bending moment | structural plasticity | membrane energy | green-lagrangian strain | bending theory of plates | buckling theory of plates | raleigh-ritz quotient | local buckling | plastic buckling | cylindrical shells | axial load | lateral pressure | hydrostatic pressure | torsion | bending boundary conditions | strain-displacement | 2.081 | 16.230

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see https://ocw.mit.edu/terms/index.htm

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4.440 Basic Structural Theory (MIT) 4.440 Basic Structural Theory (MIT)

Description

This course introduces the static behavior of structures and strength of materials. Topics covered include: reactions, truss analysis, stability of structures, stress and strain at a point, shear and bending moment diagrams, stresses in beams, Mohr's Circle, column buckling, and deflection of beams. Laboratory sessions are included where students are asked to solve structural problems by building simple models and testing them. This course introduces the static behavior of structures and strength of materials. Topics covered include: reactions, truss analysis, stability of structures, stress and strain at a point, shear and bending moment diagrams, stresses in beams, Mohr's Circle, column buckling, and deflection of beams. Laboratory sessions are included where students are asked to solve structural problems by building simple models and testing them.

Subjects

structures | structures | building technology | building technology | construction | construction | static behavior of structures and strength of materials | static behavior of structures and strength of materials | reactions | reactions | truss analysis | truss analysis | stability of structures | stability of structures | stress and strain at a point | stress and strain at a point | shear and bending moment diagrams | shear and bending moment diagrams | stresses in beams | stresses in beams | Mohr's Circle | Mohr's Circle | column buckling | column buckling | deflection of beams | deflection of beams

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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4.462 Building Technologies II: Building Structural Systems I (MIT) 4.462 Building Technologies II: Building Structural Systems I (MIT)

Description

This course serves as an introduction to the history, theory, and construction of basic structural systems with an introduction to energy issues in buildings. Emphasis is placed on developing an understanding of basic systematic and elemental behavior; principles of structural behavior and analysis of individual structural elements and strategies for load carrying. The subject introduces fundamental energy topics including thermodynamics, psychrometrics, and comfort, as they relate to building design and construction. This course is the first of two graduate structures courses, the second of which is 4.463. They offer an expanded version of the content presented in the undergraduate course, 4.440. This course serves as an introduction to the history, theory, and construction of basic structural systems with an introduction to energy issues in buildings. Emphasis is placed on developing an understanding of basic systematic and elemental behavior; principles of structural behavior and analysis of individual structural elements and strategies for load carrying. The subject introduces fundamental energy topics including thermodynamics, psychrometrics, and comfort, as they relate to building design and construction. This course is the first of two graduate structures courses, the second of which is 4.463. They offer an expanded version of the content presented in the undergraduate course, 4.440.

Subjects

column buckling | and deflection of beams | column buckling | and deflection of beams | Mohr's Circle | Mohr's Circle | stresses in beams | stresses in beams | shear and bending moment diagrams | shear and bending moment diagrams | stress and strain at a point | stress and strain at a point | stability of structures | stability of structures | truss analysis | truss analysis | reactions | reactions | static behavior of structures and strength of materials | static behavior of structures and strength of materials | construction | construction | building technology | building technology | structures | structures | column buckling and deflection of beams | column buckling and deflection of beams

License

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Design (MIT) Design (MIT)

Description

This course is intended for first year graduate students and advanced undergraduates with an interest in design of ships or offshore structures. It requires a sufficient background in structural mechanics. Computer applications are utilized, with emphasis on the theory underlying the analysis. Hydrostatic loading, shear load and bending moment, and resulting primary hull primary stresses will be developed. Topics will include; ship structural design concepts, effect of superstructures and dissimilar materials on primary strength, transverse shear stresses in the hull girder, and torsional strength among others. Failure mechanisms and design limit states will be developed for plate bending, column and panel buckling, panel ultimate strength, and plastic analysis. Matrix stiffness, grillage, This course is intended for first year graduate students and advanced undergraduates with an interest in design of ships or offshore structures. It requires a sufficient background in structural mechanics. Computer applications are utilized, with emphasis on the theory underlying the analysis. Hydrostatic loading, shear load and bending moment, and resulting primary hull primary stresses will be developed. Topics will include; ship structural design concepts, effect of superstructures and dissimilar materials on primary strength, transverse shear stresses in the hull girder, and torsional strength among others. Failure mechanisms and design limit states will be developed for plate bending, column and panel buckling, panel ultimate strength, and plastic analysis. Matrix stiffness, grillage,

Subjects

ships | ships | offshore structures | offshore structures | structural mechanics | structural mechanics | Hydrostatic loading | Hydrostatic loading | shear load | shear load | bending moment | bending moment | ship structural design concepts | ship structural design concepts | superstructures | superstructures | primary strength | primary strength | transverse shear stresses | transverse shear stresses | torsional strength | torsional strength | Failure mechanisms | Failure mechanisms | design limit states | design limit states | plastic analysis | plastic analysis | Matrix stiffness | Matrix stiffness | grillage | grillage | finite element analysis | finite element analysis | 2.082 | 2.082

License

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1.050 Solid Mechanics (MIT) 1.050 Solid Mechanics (MIT)

Description

This course introduces students to the fundamental principles and methods of structural mechanics. Topics covered include: static equilibrium, force resultants, support conditions, analysis of determinate planar structures (beams, trusses, frames), stresses and strains in structural elements, states of stress (shear, bending, torsion), statically indeterminate systems, displacements and deformations, introduction to matrix methods, elastic stability, and approximate methods. Design exercises are used to encourage creative student initiative and systems thinking.Technical RequirementsJava® Virtual Machine software (automatically installed in most major web browsers) is required to run the .class files found on this course site. Java® plug-in software is required to run the This course introduces students to the fundamental principles and methods of structural mechanics. Topics covered include: static equilibrium, force resultants, support conditions, analysis of determinate planar structures (beams, trusses, frames), stresses and strains in structural elements, states of stress (shear, bending, torsion), statically indeterminate systems, displacements and deformations, introduction to matrix methods, elastic stability, and approximate methods. Design exercises are used to encourage creative student initiative and systems thinking.Technical RequirementsJava® Virtual Machine software (automatically installed in most major web browsers) is required to run the .class files found on this course site. Java® plug-in software is required to run the

Subjects

elastic stability | elastic stability | matrix methods | matrix methods | statically indeterminate systems | statically indeterminate systems | torsion | torsion | bending | bending | shearing | shearing | strains in structural elements | strains in structural elements | stress | stress | beams | beams | frames | frames | determinate planar structures | determinate planar structures | support conditions | support conditions | static equilibrium | static equilibrium

License

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4.461 Building Technology I: Materials and Construction (MIT) 4.461 Building Technology I: Materials and Construction (MIT)

Description

This course offers an introduction to the history, theory, and construction of basic structural systems as well as an introduction to energy issues in buildings. It emphasizes basic systematic and elemental behavior, principles of structural behavior, and analysis of individual structural elements and strategies for load carrying. The course also introduces fundamental energy topics including thermodynamics, psychrometrics, and comfort. It is a required class for M. Arch. students. This course offers an introduction to the history, theory, and construction of basic structural systems as well as an introduction to energy issues in buildings. It emphasizes basic systematic and elemental behavior, principles of structural behavior, and analysis of individual structural elements and strategies for load carrying. The course also introduces fundamental energy topics including thermodynamics, psychrometrics, and comfort. It is a required class for M. Arch. students.

Subjects

structures | structures | building technology | building technology | construction | construction | static behavior of structures and strength of materials | static behavior of structures and strength of materials | reactions | reactions | truss analysis | truss analysis | stability of structures | stability of structures | stress and strain at a point | stress and strain at a point | shear and bending moment diagrams | shear and bending moment diagrams | stresses in beams | stresses in beams | Mohr's Circle | Mohr's Circle | column buckling | column buckling | deflection of beams | deflection of beams | materials | materials | wood | wood | steel | steel | concrete | concrete

License

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4.463 Building Technologies III: Building Structural Systems II (MIT) 4.463 Building Technologies III: Building Structural Systems II (MIT)

Description

This course addresses advanced topics in structures, exterior envelopes and contemporary production technologies. It continues the exploration of structural elements and systems; expanding to include more complex determinant, indeterminate, long-span and high-rise systems. Some of the topics covered include reinforced concrete, steel and engineered wood design, and an introduction to tensile systems. The contemporary exterior envelope is discussed with an emphasis on the classification of systems, their performance attributes and advanced manufacturing technologies. This course is the second of two graduate structures courses, the first of which is 4.462. They offer an expanded version of the content presented in the undergraduate course, 4.440. This course addresses advanced topics in structures, exterior envelopes and contemporary production technologies. It continues the exploration of structural elements and systems; expanding to include more complex determinant, indeterminate, long-span and high-rise systems. Some of the topics covered include reinforced concrete, steel and engineered wood design, and an introduction to tensile systems. The contemporary exterior envelope is discussed with an emphasis on the classification of systems, their performance attributes and advanced manufacturing technologies. This course is the second of two graduate structures courses, the first of which is 4.462. They offer an expanded version of the content presented in the undergraduate course, 4.440.

Subjects

structures | structures | building technology | building technology | construction | construction | static behavior of structures and strength of materials | static behavior of structures and strength of materials | reactions | reactions | truss analysis | truss analysis | stability of structures | stability of structures | stress and strain at a point | stress and strain at a point | shear and bending moment diagrams | shear and bending moment diagrams | stresses in beams | stresses in beams | Mohr's Circle | Mohr's Circle | column buckling | column buckling | deflection of beams | deflection of beams

License

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21M.380 Music and Technology (Contemporary History and Aesthetics) (MIT) 21M.380 Music and Technology (Contemporary History and Aesthetics) (MIT)

Description

Includes audio/video content: AV selected lectures, AV special element audio. This course is an investigation into the history and aesthetics of music and technology as deployed in experimental and popular musics from the 19th century to the present. Through original research, creative hands-on projects, readings, and lectures, the following topics will be explored. The history of radio, audio recording, and the recording studio, as well as the development of musique concrète and early electronic instruments. The creation and extension of musical interfaces by composers such as Harry Partch, John Cage, Conlon Nancarrow, and others. The exploration of electromagnetic technologies in pickups, and the development of dub, hip-hop, and turntablism. The history and application of the analog syn Includes audio/video content: AV selected lectures, AV special element audio. This course is an investigation into the history and aesthetics of music and technology as deployed in experimental and popular musics from the 19th century to the present. Through original research, creative hands-on projects, readings, and lectures, the following topics will be explored. The history of radio, audio recording, and the recording studio, as well as the development of musique concrète and early electronic instruments. The creation and extension of musical interfaces by composers such as Harry Partch, John Cage, Conlon Nancarrow, and others. The exploration of electromagnetic technologies in pickups, and the development of dub, hip-hop, and turntablism. The history and application of the analog syn

Subjects

audio | audio | music technology | music technology | sound recording | sound recording | sound reproduction | sound reproduction | contemporary music | contemporary music | experimental music | experimental music | electronic music | electronic music | synthesis | synthesis | synthesizers | synthesizers | music history | music history | music software | music software | analog recording | analog recording | digital recording | digital recording | digital audio | digital audio | music composition | music composition | computer music | computer music | Musique concr?te | Musique concr?te | rock music | rock music | rock and roll | rock and roll | hip hop | hip hop | circuit bending | circuit bending | phonograph | phonograph | radio | radio | noise music | noise music | recording studio | recording studio | sequencer | sequencer | sampling | sampling | sampler | sampler | sound art | sound art | electric guitar | electric guitar | turntablism | turntablism | scratching | scratching | electro-acoustic music | electro-acoustic music | music copyright | music copyright

License

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1.050 Solid Mechanics (MIT) 1.050 Solid Mechanics (MIT)

Description

Includes audio/video content: AV faculty introductions. 1.050 is a sophomore-level engineering mechanics course, commonly labelled "Statics and Strength of Materials" or "Solid Mechanics I." This course introduces students to the fundamental principles and methods of structural mechanics. Topics covered include: static equilibrium, force resultants, support conditions, analysis of determinate planar structures (beams, trusses, frames), stresses and strains in structural elements, states of stress (shear, bending, torsion), statically indeterminate systems, displacements and deformations, introduction to matrix methods, elastic stability, and approximate methods. Design exercises are used to encourage creative student initiative and systems thinking. Includes audio/video content: AV faculty introductions. 1.050 is a sophomore-level engineering mechanics course, commonly labelled "Statics and Strength of Materials" or "Solid Mechanics I." This course introduces students to the fundamental principles and methods of structural mechanics. Topics covered include: static equilibrium, force resultants, support conditions, analysis of determinate planar structures (beams, trusses, frames), stresses and strains in structural elements, states of stress (shear, bending, torsion), statically indeterminate systems, displacements and deformations, introduction to matrix methods, elastic stability, and approximate methods. Design exercises are used to encourage creative student initiative and systems thinking.

Subjects

solid mechanics | solid mechanics | engineering design | engineering design | open ended exercises | open ended exercises | matrix analysis of structures | matrix analysis of structures | structural mechanics | structural mechanics | static equilibrium | static equilibrium | force resultants | force resultants | support conditions | support conditions | determinate planar structures | determinate planar structures | beams | beams | trusses | trusses | frames | frames | stress | stress | strain | strain | shear | shear | bending | bending | torsion | torsion | matrix methods | matrix methods | elastic stability | elastic stability | design exercises | design exercises | interactive exercises | interactive exercises | systems thinking | systems thinking

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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1.101 Introduction to Civil and Environmental Engineering Design I (MIT) 1.101 Introduction to Civil and Environmental Engineering Design I (MIT)

Description

This sophomore-level course is a project-oriented introduction to the principles and practice of engineering design. Design projects and exercises are chosen that relate to the built and natural environments. Emphasis is placed on achieving function and sustainability through choice of materials and processes, compatibility with natural cycles, and the use of active or adaptive systems. The course also encourages development of hands-on skills, teamwork, and communication; exercises and projects engage students in the building, implementation, and testing of their designs. This sophomore-level course is a project-oriented introduction to the principles and practice of engineering design. Design projects and exercises are chosen that relate to the built and natural environments. Emphasis is placed on achieving function and sustainability through choice of materials and processes, compatibility with natural cycles, and the use of active or adaptive systems. The course also encourages development of hands-on skills, teamwork, and communication; exercises and projects engage students in the building, implementation, and testing of their designs.

Subjects

Design | Design | water resources | water resources | water treatment | water treatment | structures | structures | structural design | structural design | fabrication | fabrication | testing | testing | hardware | hardware | laboratory experiments | laboratory experiments | pH | pH | neutralization | neutralization | hydraulic conductivity | hydraulic conductivity | porosity | porosity | truss | truss | tension | tension | beam bending | beam bending | beam buckling | beam buckling | thermal design | thermal design | heating | heating | cooling | cooling | thermal infrared camera | thermal infrared camera | thermal IR imaging | thermal IR imaging | heat loss | heat loss

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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Materials I (MIT) Materials I (MIT)

Description

This course provides an introduction to the mechanics of solids with applications to science and engineering. We emphasize the three essential features of all mechanics analyses, namely: (a) the geometry of the motion and/or deformation of the structure, and conditions of geometric fit, (b) the forces on and within structures and assemblages; and (c) the physical aspects of the structural system (including material properties) which quantify relations between the forces and motions/deformation. This course provides an introduction to the mechanics of solids with applications to science and engineering. We emphasize the three essential features of all mechanics analyses, namely: (a) the geometry of the motion and/or deformation of the structure, and conditions of geometric fit, (b) the forces on and within structures and assemblages; and (c) the physical aspects of the structural system (including material properties) which quantify relations between the forces and motions/deformation.

Subjects

statics | statics | pressure | pressure | deformation | deformation | deformable solid | deformable solid | equilibrium | equilibrium | geometric compatibility | geometric compatibility | material behavior | material behavior | stress | stress | strain | strain | shear | shear | elasticity | elasticity | thermal expansion | thermal expansion | failure modes | failure modes | biomechanics | biomechanics | natural materials | natural materials | motion | motion | structure | structure | force | force | moment | moment | member | member | truss | truss | friction | friction | torsion | torsion | bending | bending | displacement | displacement | beam | beam

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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Design (13.122) (MIT) Design (13.122) (MIT)

Description

This course is intended for first year graduate students and advanced undergraduates with an interest in design of ships or offshore structures. It requires a sufficient background in structural mechanics. Computer applications are utilized, with emphasis on the theory underlying the analysis. Hydrostatic loading, shear load and bending moment, and resulting primary hull primary stresses will be developed. Topics will include; ship structural design concepts, effect of superstructures and dissimilar materials on primary strength, transverse shear stresses in the hull girder, and torsional strength among others. Failure mechanisms and design limit states will be developed for plate bending, column and panel buckling, panel ultimate strength, and plastic analysis. Matrix stiffness, grillage, This course is intended for first year graduate students and advanced undergraduates with an interest in design of ships or offshore structures. It requires a sufficient background in structural mechanics. Computer applications are utilized, with emphasis on the theory underlying the analysis. Hydrostatic loading, shear load and bending moment, and resulting primary hull primary stresses will be developed. Topics will include; ship structural design concepts, effect of superstructures and dissimilar materials on primary strength, transverse shear stresses in the hull girder, and torsional strength among others. Failure mechanisms and design limit states will be developed for plate bending, column and panel buckling, panel ultimate strength, and plastic analysis. Matrix stiffness, grillage,

Subjects

ships | ships | offshore structures | offshore structures | structural mechanics | structural mechanics | Hydrostatic loading | Hydrostatic loading | shear load | shear load | bending moment | bending moment | ship structural design concepts | ship structural design concepts | superstructures | superstructures | primary strength | primary strength | transverse shear stresses | transverse shear stresses | torsional strength | torsional strength | Failure mechanisms | Failure mechanisms | design limit states | design limit states | plastic analysis | plastic analysis | Matrix stiffness | Matrix stiffness | grillage | grillage | finite element analysis | finite element analysis

License

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6.055J The Art of Approximation in Science and Engineering (MIT) 6.055J The Art of Approximation in Science and Engineering (MIT)

Description

This course teaches simple reasoning techniques for complex phenomena: divide and conquer, dimensional analysis, extreme cases, continuity, scaling, successive approximation, balancing, cheap calculus, and symmetry. Applications are drawn from the physical and biological sciences, mathematics, and engineering. Examples include bird and machine flight, neuron biophysics, weather, prime numbers, and animal locomotion. Emphasis is on low-cost experiments to test ideas and on fostering curiosity about phenomena in the world. This course teaches simple reasoning techniques for complex phenomena: divide and conquer, dimensional analysis, extreme cases, continuity, scaling, successive approximation, balancing, cheap calculus, and symmetry. Applications are drawn from the physical and biological sciences, mathematics, and engineering. Examples include bird and machine flight, neuron biophysics, weather, prime numbers, and animal locomotion. Emphasis is on low-cost experiments to test ideas and on fostering curiosity about phenomena in the world.

Subjects

approximation | approximation | science | science | engineering | engineering | managing complexity | managing complexity | divide and conquer | divide and conquer | heterogeneous hierarchies | heterogeneous hierarchies | homogeneous hierarchies | homogeneous hierarchies | proportional reasoning | proportional reasoning | conservation/box models | conservation/box models | dimensional analysis | dimensional analysis | special cases | special cases | extreme cases | extreme cases | discretization | discretization | spring models | spring models | symmetry | symmetry | invariance | invariance | discarding information | discarding information | oil imports | oil imports | tree representations | tree representations | gold | gold | random walks | random walks | UNIX | UNIX | triangle bisection | triangle bisection | pentagonal heat flow | pentagonal heat flow | jump heights | jump heights | simple calculus | simple calculus | drag | drag | cycling | cycling | swimming | swimming | flying | flying | flight | flight | algebraic symmetry | algebraic symmetry | densities | densities | hydrogen size | hydrogen size | bending of light | bending of light | Buckingham Pi Theorem | Buckingham Pi Theorem | pulley acceleration | pulley acceleration | waves | waves

License

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3.11 Mechanics of Materials (MIT)

Description

Overview of mechanical properties of ceramics, metals, and polymers, emphasizing the role of processing and microstructure in controlling these properties. Basic topics in mechanics of materials including: continuum stress and strain, truss forces, torsion of a circular shaft and beam bending. Design of engineering structures from a materials point of view.

Subjects

beam bending | circular shaft bending | truss forces | continuum stress and strain | polymers | metals | ceramics

License

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4.463 Building Technologies III: Building Structural Systems II (MIT) 4.463 Building Technologies III: Building Structural Systems II (MIT)

Description

This course addresses advanced topics in structures, exterior envelopes and contemporary production technologies. It continues the exploration of structural elements and systems; expanding to include more complex determinant, indeterminate, long-span and high-rise systems. Some of the topics covered include reinforced concrete, steel and engineered wood design, and an introduction to tensile systems. The contemporary exterior envelope is discussed with an emphasis on the classification of systems, their performance attributes and advanced manufacturing technologies. This course is the second of two graduate structures courses, the first of which is 4.462. They offer an expanded version of the content presented in the undergraduate course, 4.440. This course addresses advanced topics in structures, exterior envelopes and contemporary production technologies. It continues the exploration of structural elements and systems; expanding to include more complex determinant, indeterminate, long-span and high-rise systems. Some of the topics covered include reinforced concrete, steel and engineered wood design, and an introduction to tensile systems. The contemporary exterior envelope is discussed with an emphasis on the classification of systems, their performance attributes and advanced manufacturing technologies. This course is the second of two graduate structures courses, the first of which is 4.462. They offer an expanded version of the content presented in the undergraduate course, 4.440.

Subjects

structures | structures | building technology | building technology | construction | construction | static behavior of structures and strength of materials | static behavior of structures and strength of materials | reactions | reactions | truss analysis | truss analysis | stability of structures | stability of structures | stress and strain at a point | stress and strain at a point | shear and bending moment diagrams | shear and bending moment diagrams | stresses in beams | stresses in beams | Mohr's Circle | Mohr's Circle | column buckling | column buckling | deflection of beams | deflection of beams

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see https://ocw.mit.edu/terms/index.htm

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Shear force : presentation transcript

Description

This open educational resource was released through the Higher Education Academy Engineering Subject Centre Open Engineering Resources Pilot project. The project was funded by HEFCE and the JISC/HE Academy UKOER programme.

Subjects

ukoer | engscoer | cc-by | leicester college | leicester college tech | leicestercollegeoer | engineering department | education | higher education | learning | nqf l4 | moment | shear | bending | edexcel | shear force | beam | engineering science | force | stress | edexcel hn uni | bending moment | Engineering | H000

License

Attribution 2.0 UK: England & Wales Attribution 2.0 UK: England & Wales http://creativecommons.org/licenses/by/2.0/uk/ http://creativecommons.org/licenses/by/2.0/uk/

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