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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

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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Testing guns at the firing range, Silloth Testing guns at the firing range, Silloth

Description

Subjects

sky | sky | industry | industry | wheel | wheel | stone | stone | standing | standing | outdoors | outdoors | interesting | interesting | gun | gun | industrial | industrial | mechanical | mechanical | unitedkingdom | unitedkingdom | drum | drum | britain | britain | crane | crane | label | label | military | military | debris | debris | pipe | pipe | platform | platform | rail | rail | testing | testing | chain | chain | northumberland | northumberland | cap | cap | pile | pile | cumbria | cumbria | archives | archives | overalls | overalls | target | target | artillery | artillery | products | products | unusual | unusual | striking | striking | armstrong | armstrong | crease | crease | cog | cog | operating | operating | attentive | attentive | weapons | weapons | firing | firing | lever | lever | newcastleupontyne | newcastleupontyne | whitworth | whitworth | fascinating | fascinating | mounting | mounting | digitalimage | digitalimage | workman | workman | factories | factories | silloth | silloth | customers | customers | firingrange | firingrange | manufacture | manufacture | nineteenthcentury | nineteenthcentury | rivertyne | rivertyne | manufacturing | manufacturing | industrialheritage | industrialheritage | armaments | armaments | blackandwhitephotograph | blackandwhitephotograph | northeastofengland | northeastofengland | armstrongwhitworth | armstrongwhitworth | lordarmstrong | lordarmstrong | ridsdale | ridsdale | elswickworks | elswickworks | williamgeorgearmstrong | williamgeorgearmstrong | workshopoftheworld | workshopoftheworld | testingguns | testingguns | scotswoodworks | scotswoodworks | sillothonsolway | sillothonsolway | proofrange | proofrange | vickersarmstrongcollection | vickersarmstrongcollection | breechloadingguns | breechloadingguns | proofranges | proofranges | 27october1926 | 27october1926 | 4inchgimbalmountings | 4inchgimbalmountings | 8inchbreechloadinggun | 8inchbreechloadinggun

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Dockers unloading sisal at the Corporation Quay, Sunderland Dockers unloading sisal at the Corporation Quay, Sunderland

Description

Subjects

portofsunderland | portofsunderland | sunderland | sunderland | riverwear | riverwear | corporationquay | corporationquay | industry | industry | ships | ships | vessels | vessels | quays | quays | cranes | cranes | shipping | shipping | wearside | wearside | workers | workers | dockers | dockers | unloading | unloading | northeastofengland | northeastofengland | sisal | sisal | blackandwhitephotograph | blackandwhitephotograph | digitalimage | digitalimage | worker | worker | fabric | fabric | crease | crease | cap | cap | chain | chain | archives | archives | industrialheritage | industrialheritage | maritimeheritage | maritimeheritage | shipbuildingheritage | shipbuildingheritage | abstract | abstract | unloadingsisal | unloadingsisal | eastafrica | eastafrica | july1949 | july1949 | rope | rope | sunderlandarea | sunderlandarea | unitedkingdom | unitedkingdom | portauthority | portauthority | riverwearcommissioners | riverwearcommissioners | management | management | harbour | harbour | river | river | port | port | construction | construction | production | production | development | development | pier | pier | dock | dock | quay | quay | dredging | dredging | coaltrade | coaltrade | traditonalindustry | traditonalindustry | alliedindustries | alliedindustries | marineengineering | marineengineering | shiprepairing | shiprepairing | tyneandwear | tyneandwear | level | level | opening | opening | container | container | fascinating | fascinating | timber | timber | interesting | interesting | unusual | unusual | impressive | impressive | hook | hook | bolt | bolt | metal | metal | bar | bar | components | components | transportation | transportation | shirt | shirt | belt | belt | trousers | trousers | working | working | labour | labour | darkness | darkness | deck | deck | vessel | vessel

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Cotton Scene, Galveston, Tex. Cotton Scene, Galveston, Tex.

Description

Subjects

cotton | cotton | loadingandunloading | loadingandunloading | employees | employees | railroadcars | railroadcars | freightcars | freightcars | sanantonioandaransaspassrailwaycompany | sanantonioandaransaspassrailwaycompany

License

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Structures and materials : section 6 axially loaded structural members : 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 | engcetl | loughborough university | higher education | learning | loughboroughunioer | engineering | tta104 | shear loading | axially loaded structural members | loads | loading | two-step steel rod | tapered cross section | rectangular cross-section | circular cross-section | shear | structural members | deformation | forces | axial member | axial loading | 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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TALAT Lecture 4107: General Summary and Future Trends

Description

This lecture points out the need of data sources for designing mechanical joints; it describes concepts for FEM-Modelling of mechanical joints. General mechanical engineering background and familiarity with the subject matter covered in TALAT This lectures 4101- 4106 is assumed.

Subjects

aluminium | aluminum | european aluminium association | eaa | talat | training in aluminium application technologies | training | metallurgy | technology | lecture | joining | fastening | mechanical | technological data base | input mask | component design | fem-modelling | fatigue strength | self-piercing riveted joint | shear loading | 3-d loading | quasi-static loading | clinch joint | single-step clinching process | local incision | diagram | application | design | 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 4107: General Summary and Future Trends

Description

This lecture points out the need of data sources for designing mechanical joints; it describes concepts for FEM-Modelling of mechanical joints. General mechanical engineering background and familiarity with the subject matter covered in TALAT This lectures 4101- 4106 is assumed.

Subjects

aluminium | aluminum | european aluminium association | EAA | Training in Aluminium Application Technologies | training | metallurgy | technology | lecture | joining | fastening | mechanical | technological data base | input mask | component design | FEM-modelling | fatigue strength | self-piercing riveted joint | shear loading | 3-D loading | loading | clinch joint | single-step clinching process | local incision | diagram | application | design | corematerials | ukoer

License

http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

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22.314J Structural Mechanics in Nuclear Power Technology (MIT) 22.314J Structural Mechanics in Nuclear Power Technology (MIT)

Description

This course deals with structural components in nuclear power plant systems, their functional purposes, operating conditions, and mechanical-structural design requirements. It combines mechanics techniques with models of material behavior to determine adequacy of component design. Considerations include mechanical loading, brittle fracture, in-elastic behavior, elevated temperatures, neutron irradiation, and seismic effects. This course deals with structural components in nuclear power plant systems, their functional purposes, operating conditions, and mechanical-structural design requirements. It combines mechanics techniques with models of material behavior to determine adequacy of component design. Considerations include mechanical loading, brittle fracture, in-elastic behavior, elevated temperatures, neutron irradiation, and seismic effects.

Subjects

nuclear power plant systems | nuclear power plant systems | structure | structure | function | function | operating conditions | operating conditions | and mechanical-structural design requirements | and mechanical-structural design requirements | modeling | modeling | component design | component design | mechanical loading | mechanical loading | brittle fracture | brittle fracture | inelastic behavior | inelastic behavior | elevated temperatures | elevated temperatures | neutron irradiation | neutron irradiation | seismic effects | seismic effects

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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Structures and materials (TTA104) : outline and introduction : 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 | engcetl | loughborough university | higher education | learning | loughboroughunioer | equilibrium | homogeneity | structural materials | isotropy | structures | force | axially loaded structural members | loading | engineering | stress | strain | loads | materials | rate of loading | tta104 | 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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Dockers unloading sisal at the Corporation Quay, Sunderland

Description

Dock workers unloading sisal from East Africa at the Corporation Quay, Sunderland, July 1949 (TWAM ref. DT.TUR/2/3176R). It was destined for rope works in the Sunderland area. This set of images celebrates the 300th Anniversary of the establishment of the Port of Sunderland. The port authority was constituted in 1717 by Act of Parliament, which appointed the River Wear Commissioners to manage and improve the harbour and river. Since then the port has changed beyond recognition with the construction of piers, docks and quays and the dredging of the River Wear to make it wider and deeper. These developments were vital to the coal trade on which the region?s prosperity depended. The improvement of the river was also essential to the success of shipbuilding in Sunderland as well as allied industries such as marine engineering and ship repairing. These images are a reflection of Sunderland?s proud industrial history. (Copyright) We're happy for you to share these digital images within the spirit of The Commons. Please cite 'Tyne & Wear Archives & Museums' when reusing. Certain restrictions on high quality reproductions and commercial use of the original physical version apply though; if you're unsure please email archives@twmuseums.org.uk

Subjects

portofsunderland | sunderland | riverwear | corporationquay | industry | ships | vessels | quays | cranes | shipping | wearside | workers | dockers | unloading | northeastofengland | sisal | blackandwhitephotograph | digitalimage | worker | fabric | crease | cap | chain | archives | industrialheritage | maritimeheritage | shipbuildingheritage | abstract | unloadingsisal | eastafrica | july1949 | rope | sunderlandarea | unitedkingdom | portauthority | riverwearcommissioners | management | harbour | river | port | construction | production | development | pier | dock | quay | dredging | coaltrade | traditonalindustry | alliedindustries | marineengineering | shiprepairing | tyneandwear | level | opening | container | fascinating | timber | interesting | unusual | impressive | hook | bolt | metal | bar | components | transportation | shirt | belt | trousers | working | labour | darkness | deck | vessel

License

No known copyright restrictions

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Tyne & Wear Archives & Museums | FlickR

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Unloading esparto grass at the Corporation Quay Unloading esparto grass at the Corporation Quay

Description

Subjects

portofsunderland | portofsunderland | sunderland | sunderland | riverwear | riverwear | corporationquay | corporationquay | heritage | heritage | industry | industry | ships | ships | vessels | vessels | quays | quays | espartograss | espartograss | unloading | unloading | shipping | shipping | wearside | wearside | railways | railways | railwaywaggons | railwaywaggons | cranes | cranes | blackandwhitephotograph | blackandwhitephotograph | digitalimage | digitalimage | maritimeheritage | maritimeheritage | industrialheritage | industrialheritage | shipbuildingheritage | shipbuildingheritage | discharged | discharged | railwaywagons | railwaywagons | northeastofengland | northeastofengland | unitedkingdom | unitedkingdom | august1948 | august1948 | localpapermills | localpapermills | portauthority | portauthority | riverwearcommissioners | riverwearcommissioners | management | management | developments | developments | production | production | construction | construction | structure | structure | frames | frames | parts | parts | marineengineering | marineengineering | shiprepairing | shiprepairing | vent | vent | rail | rail | deck | deck | crew | crew | workers | workers | mast | mast | bank | bank | land | land | buildings | buildings | chimney | chimney | smoke | smoke | cylinder | cylinder | cloth | cloth | label | label | soil | soil | debris | debris | cart | cart | wheel | wheel | timber | timber | chain | chain | pile | pile | interesting | interesting | fascinating | fascinating | unusual | unusual | impressive | impressive | blur | blur | grain | grain | mark | mark | load | load | banaderos | banaderos | archives | archives | abstract | abstract

License

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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.

Subjects

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

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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22.314J Structural Mechanics in Nuclear Power Technology (MIT) 22.314J Structural Mechanics in Nuclear Power Technology (MIT)

Description

This course deals with structural components in nuclear power plant systems, their functional purposes, operating conditions, and mechanical-structural design requirements. It combines mechanics techniques with models of material behavior to determine adequacy of component design. Considerations include mechanical loading, brittle fracture, in-elastic behavior, elevated temperatures, neutron irradiation, and seismic effects.This class was also offered in Course 13 (Department of Ocean Engineering) as 13.14J. In 2005, ocean engineering subjects became part of Course 2 (Department of Mechanical Engineering), and the 13.14J designation was dropped in lieu of 2.084J. This course deals with structural components in nuclear power plant systems, their functional purposes, operating conditions, and mechanical-structural design requirements. It combines mechanics techniques with models of material behavior to determine adequacy of component design. Considerations include mechanical loading, brittle fracture, in-elastic behavior, elevated temperatures, neutron irradiation, and seismic effects.This class was also offered in Course 13 (Department of Ocean Engineering) as 13.14J. In 2005, ocean engineering subjects became part of Course 2 (Department of Mechanical Engineering), and the 13.14J designation was dropped in lieu of 2.084J.

Subjects

nuclear power plant systems | nuclear power plant systems | structure | functions | operating conditions and mechanical structural design requirements | structure | functions | operating conditions and mechanical structural design requirements | modelling | modelling | component design | component design | mechanical loading | mechanical loading | brittle fracture | inelastic behaviour | brittle fracture | inelastic behaviour | elevated temperature | elevated temperature | neutron irradiation | neutron irradiation | seismic effect | seismic effect | structure | function | operating conditions | and mechanical-structural design requirements | structure | function | operating conditions | and mechanical-structural design requirements | brittle fracture | inelastic behavior | brittle fracture | inelastic behavior | 13.14J | 13.14J | 22.314 | 22.314 | 1.56 | 1.56 | 2.084 | 2.084 | 13.14 | 13.14

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 (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

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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Workers unloading esparto grass in Sunderland Workers unloading esparto grass in Sunderland

Description

Subjects

portofsunderland | portofsunderland | sunderland | sunderland | riverwear | riverwear | corporationquay | corporationquay | heritage | heritage | industry | industry | ships | ships | vessels | vessels | quays | quays | espartograss | espartograss | unloading | unloading | shipping | shipping | wearside | wearside | railways | railways | railwaywaggons | railwaywaggons | cranes | cranes | workers | workers | 1940s | 1940s | northeastofengland | northeastofengland | unitedkingdom | unitedkingdom | blackandwhitephotograph | blackandwhitephotograph | digitalimage | digitalimage | archives | archives | industrialheritage | industrialheritage | maritimeheritage | maritimeheritage | shipbuildingheritage | shipbuildingheritage | alliedindustries | alliedindustries | traditional | traditional | marineengineering | marineengineering | shiprepairing | shiprepairing | management | management | developments | developments | construction | construction | river | river | ship | ship | august1948 | august1948 | localpapermills | localpapermills | discharged | discharged | railway | railway | waggon | waggon | portauthority | portauthority | actofparliament | actofparliament | 1717 | 1717 | harbour | harbour | port | port | piers | piers | docks | docks | dredging | dredging | coaltrade | coaltrade | economy | economy | trade | trade | prosperity | prosperity | chain | chain | cog | cog | bar | bar | rail | rail | deck | deck | cargo | cargo | logs | logs | pile | pile | cloth | cloth | cap | cap | shirt | shirt | crease | crease | cylinder | cylinder | wheel | wheel | handle | handle | interesting | interesting | fascinating | fascinating | unusual | unusual | rope | rope | seated | seated | standing | standing | working | working | transportation | transportation

License

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16.100 Aerodynamics (MIT) 16.100 Aerodynamics (MIT)

Description

This course extends fluid mechanic concepts from Unified Engineering to the aerodynamic performance of wings and bodies in sub/supersonic regimes. 16.100 generally has four components: subsonic potential flows, including source/vortex panel methods; viscous flows, including laminar and turbulent boundary layers; aerodynamics of airfoils and wings, including thin airfoil theory, lifting line theory, and panel method/interacting boundary layer methods; and supersonic and hypersonic airfoil theory. Course material varies each year depending upon the focus of the design problem. Technical RequirementsFile decompression software, such as Winzip® or StuffIt®, is required to open the .tar files found on this course site. MATLAB&#1 This course extends fluid mechanic concepts from Unified Engineering to the aerodynamic performance of wings and bodies in sub/supersonic regimes. 16.100 generally has four components: subsonic potential flows, including source/vortex panel methods; viscous flows, including laminar and turbulent boundary layers; aerodynamics of airfoils and wings, including thin airfoil theory, lifting line theory, and panel method/interacting boundary layer methods; and supersonic and hypersonic airfoil theory. Course material varies each year depending upon the focus of the design problem. Technical RequirementsFile decompression software, such as Winzip® or StuffIt®, is required to open the .tar files found on this course site. MATLAB&#1

Subjects

aerodynamics | aerodynamics | airflow | airflow | air | air | body | body | aircraft | aircraft | aerodynamic modes | aerodynamic modes | aero | aero | forces | forces | flow | flow | computational | computational | CFD | CFD | aerodynamic analysis | aerodynamic analysis | lift | lift | drag | drag | potential flows | potential flows | imcompressible | imcompressible | supersonic | supersonic | subsonic | subsonic | panel method | panel method | vortex lattice method | vortex lattice method | boudary layer | boudary layer | transition | transition | turbulence | turbulence | inviscid | inviscid | viscous | viscous | euler | euler | navier-stokes | navier-stokes | wind tunnel | wind tunnel | flow similarity | flow similarity | non-dimensional | non-dimensional | mach number | mach number | reynolds number | reynolds number | integral momentum | integral momentum | airfoil | airfoil | wing | wing | stall | stall | friction drag | friction drag | induced drag | induced drag | wave drag | wave drag | pressure drag | pressure drag | fluid element | fluid element | shear strain | shear strain | normal strain | normal strain | vorticity | vorticity | divergence | divergence | substantial derviative | substantial derviative | laminar | laminar | displacement thickness | displacement thickness | momentum thickness | momentum thickness | skin friction | skin friction | separation | separation | velocity profile | velocity profile | 2-d panel | 2-d panel | 3-d vortex | 3-d vortex | thin airfoil | thin airfoil | lifting line | lifting line | aspect ratio | aspect ratio | twist | twist | camber | camber | wing loading | wing loading | roll moments | roll moments | finite volume approximation | finite volume approximation | shocks | shocks | expansion fans | expansion fans | shock-expansion theory | shock-expansion theory | transonic | transonic | critical mach number | critical mach number | wing sweep | wing sweep | Kutta condition | Kutta condition | team project | team project | blended-wing-body | blended-wing-body | computational fluid dynamics | computational fluid dynamics | Incompressible | Incompressible

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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1.978 From Nano to Macro: Introduction to Atomistic Modeling Techniques (MIT) 1.978 From Nano to Macro: Introduction to Atomistic Modeling Techniques (MIT)

Description

The objective of this course is to introduce large-scale atomistic modeling techniques and highlight its importance for solving problems in modern engineering sciences. We demonstrate how atomistic modeling can be used to understand how materials fail under extreme loading, involving unfolding of proteins and propagation of cracks. This course was featured in an MIT Tech Talk article. The objective of this course is to introduce large-scale atomistic modeling techniques and highlight its importance for solving problems in modern engineering sciences. We demonstrate how atomistic modeling can be used to understand how materials fail under extreme loading, involving unfolding of proteins and propagation of cracks. This course was featured in an MIT Tech Talk article.

Subjects

large-scale atomistic | large-scale atomistic | large-scale atomistic modeling techniques | large-scale atomistic modeling techniques | modern engineering sciences | modern engineering sciences | atomistic modeling | atomistic modeling | extreme loading | extreme loading | ductile and brittle materials failure | ductile and brittle materials failure | molecular dynamics | molecular dynamics | simulations | simulations | Cauchy-Born rule | Cauchy-Born rule | biomechanics | biomechanics | biomaterials | biomaterials | copper nanocrystal | copper nanocrystal | nanomechanics | nanomechanics | material mechanics | material mechanics

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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Swiss Cottage, Cahir, Co. Tipperary Swiss Cottage, Cahir, Co. Tipperary

Description

Subjects

ireland | ireland | salmon | salmon | magnolia | magnolia | myrtle | myrtle | munster | munster | spiralstaircase | spiralstaircase | thatching | thatching | caretaker | caretaker | cahir | cahir | glassnegative | glassnegative | swisscottage | swisscottage | treetrunks | treetrunks | trove | trove | johnnash | johnnash | hobnob | hobnob | azalias | azalias | nationallibraryofaustralia | nationallibraryofaustralia | richardbutler | richardbutler | charteris | charteris | cotipperary | cotipperary | robertfrench | robertfrench | williamlawrence | williamlawrence | nationallibraryofireland | nationallibraryofireland | 1800’s | 1800’s | cedarshingles | cedarshingles | lawrencecollection | lawrencecollection | fishingtemple | fishingtemple | cottageorné | cottageorné | shootingaccident | shootingaccident | tragiccircumstances | tragiccircumstances | lawrencephotographicstudio | lawrencephotographicstudio | thelawrencephotographcollection | thelawrencephotographcollection | 1stearlofglengall | 1stearlofglengall | regencyarchitect | regencyarchitect | dufourwallpaper | dufourwallpaper | parisianwallpapers | parisianwallpapers | accidentaldeathklaxon | accidentaldeathklaxon | mrpeterdoherty | mrpeterdoherty | coroneramandeville | coroneramandeville | shothimselfthroughtheheart | shothimselfthroughtheheart | doublebarrelbreachloadinggun | doublebarrelbreachloadinggun | pheasantrygrounds | pheasantrygrounds | cahirpark | cahirpark | fantasticspoonbait | fantasticspoonbait | plumppheasants | plumppheasants | charterisestate | charterisestate | eugenehever | eugenehever | amasterthatcher | amasterthatcher | hugho’brien | hugho’brien | goldenreedthatch | goldenreedthatch | eugeneheavey | eugeneheavey | landcommission | landcommission

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6.092 Java Preparation for 6.170 (MIT) 6.092 Java Preparation for 6.170 (MIT)

Description

This course focuses on introducing the language, libraries, tools and concepts of JavaTM. The course is specifically targeted at students who intend to take 6.170 in the following term and feel they would struggle because they lack the necessary background. Topics include: Object-oriented programming, primitives, arrays, objects, inheritance, interfaces, polymorphism, hashing, data structures, collections, nested classes, floating point precision, defensive programming, and depth-first search algorithm. This course focuses on introducing the language, libraries, tools and concepts of JavaTM. The course is specifically targeted at students who intend to take 6.170 in the following term and feel they would struggle because they lack the necessary background. Topics include: Object-oriented programming, primitives, arrays, objects, inheritance, interfaces, polymorphism, hashing, data structures, collections, nested classes, floating point precision, defensive programming, and depth-first search algorithm.

Subjects

Object oriented programming | Object oriented programming | Java program structure | Java program structure | class file | main | methods | fields | class file | main | methods | fields | Primitives | Primitives | Control flow | method calls | if/then | for loop | while loop | Control flow | method calls | if/then | for loop | while loop | Arrays | Arrays | Objects | declaration | assignment | mutation | scope | Objects | declaration | assignment | mutation | scope | Classes vs Objects/Instances | Classes vs Objects/Instances | Method Overloading | Method Overloading | Inheritence | Inheritence | Abstract superclasses | Abstract superclasses | Interfaces | Interfaces | Polymorphism | Polymorphism | Method Overriding | Method Overriding | Hashing | Hashing | Data structures | Data structures | Collections | Collections | Advanced control flow | Advanced control flow | Writing interfaces | abstract classes | Writing interfaces | abstract classes | True subtyping | composite | True subtyping | composite | Throwing and catching exceptions | Throwing and catching exceptions | Nested classes | Nested classes | Floating point precision | Floating point precision | Defensive programming | Defensive programming | Depth First Search alogithm | Depth First Search alogithm

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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1.561 Motion Based Design (MIT) 1.561 Motion Based Design (MIT)

Description

This course presents a rational basis for the preliminary design of motion-sensitive structures. Topics covered include: analytical and numerical techniques for establishing the optimal stiffness distribution, the role of damping in controlling motion, tuned mass dampers, base isolation systems, and active structural control. Examples illustrating the application of the motion-based design paradigm to building structures subjected to seismic excitation are discussed. This course presents a rational basis for the preliminary design of motion-sensitive structures. Topics covered include: analytical and numerical techniques for establishing the optimal stiffness distribution, the role of damping in controlling motion, tuned mass dampers, base isolation systems, and active structural control. Examples illustrating the application of the motion-based design paradigm to building structures subjected to seismic excitation are discussed.

Subjects

preliminary design | preliminary design | motion-sensitive structures | motion-sensitive structures | analytical techniques | analytical techniques | numerical techniques | numerical techniques | optimal stiffness distribution | optimal stiffness distribution | damping | damping | controlling motion | controlling motion | tuned mass dampers | tuned mass dampers | base isolation systems | base isolation systems | active structural control | active structural control | building structures | building structures | wind excitation | wind excitation | seismic excitation | seismic excitation | building design | building design | numerical analysis | numerical analysis | motion control | motion control | motion-based design | motion-based design | safety | safety | serviceability | serviceability | loadings | loadings | optimal stiffness | optimal stiffness | optimal damping | optimal damping | base isolation | base isolation

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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Testing guns at the firing range, Silloth

Description

8 inch breech-loading gun and 4 inch Gimbal Mountings at Silloth-on-Solway, Cumbria, 27 October 1926 (TWAM ref. DS.VA/9/PH/5/2). Armstrong-Whitworth usually tested guns manufactured in the Elswick Works at their proof ranges at Silloth and Ridsdale, Northumberland. ?Workshop of the World? is a phrase often used to describe Britain?s manufacturing dominance during the Nineteenth Century. It?s also a very apt description for the Elswick Works and Scotswood Works of Vickers Armstrong and its predecessor companies. These great factories, situated in Newcastle along the banks of the River Tyne, employed hundreds of thousands of men and women and built a huge variety of products for customers around the globe. The Elswick Works was established by William George Armstrong (later Lord Armstrong) in 1847 to manufacture hydraulic cranes. From these relatively humble beginnings the company diversified into many fields including shipbuilding, armaments and locomotives. By 1953 the Elswick Works covered 70 acres and extended over a mile along the River Tyne. This set of images, mostly taken from our Vickers Armstrong collection, includes fascinating views of the factories at Elswick and Scotswood, the products they produced and the people that worked there. By preserving these archives we can ensure that their legacy lives on. (Copyright) We're happy for you to share this digital image within the spirit of The Commons. Please cite 'Tyne & Wear Archives & Museums' when reusing. Certain restrictions on high quality reproductions and commercial use of the original physical version apply though; if you're unsure please email info@twarchives.org.uk.

Subjects

armstrongwhitworth | military | armaments | artillery | gun | mounting | industry | industrial | manufacturing | sillothonsolway | firingrange | proofrange | weapons | breechloadingguns | cumbria | elswickworks | newcastleupontyne | testingguns | blackandwhitephotograph | digitalimage | archives | industrialheritage | workshopoftheworld | manufacture | firing | target | silloth | 27october1926 | 4inchgimbalmountings | 8inchbreechloadinggun | testing | northeastofengland | unitedkingdom | armstrong | whitworth | proofranges | ridsdale | northumberland | britain | nineteenthcentury | scotswoodworks | factories | rivertyne | products | customers | williamgeorgearmstrong | lordarmstrong | vickersarmstrongcollection | interesting | unusual | fascinating | striking | workman | attentive | standing | cap | overalls | sky | outdoors | label | lever | wheel | crease | mechanical | pile | crane | cog | chain | pipe | platform | drum | rail | stone | debris | operating

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1.105 Solid Mechanics Laboratory (MIT) 1.105 Solid Mechanics Laboratory (MIT)

Description

This course introduces students to basic properties of structural materials and behavior of simple structural elements and systems through a series of experiments. Students learn experimental technique, data collection, reduction and analysis, and presentation of results. Students generally take this subject during the same semester as 1.050, Solid Mechanics. This course introduces students to basic properties of structural materials and behavior of simple structural elements and systems through a series of experiments. Students learn experimental technique, data collection, reduction and analysis, and presentation of results. Students generally take this subject during the same semester as 1.050, Solid Mechanics.

Subjects

properties of structural materials | properties of structural materials | structural elements | structural elements | structural systems | structural systems | experimental technique | experimental technique | data collection | data collection | reduction | reduction | analysis | analysis | presentation | presentation | properties | properties | structural materials | structural materials | structural behavior | structural behavior | simple structural elements | simple structural elements | simple structural systems | simple structural systems | laboratory experiments | laboratory experiments | data reduction | data reduction | data analysis | data analysis | solid mechanics | solid mechanics | loading | loading | observation | observation | measurement | measurement | force | force | displacement | displacement | stiffness | stiffness | failure modes | failure modes | failure mechanisms | failure mechanisms | instrumentation | instrumentation | resolution | resolution | range | range | transducer response | transducer response | signal conditioning | signal conditioning | experimental design | experimental design | report writing | report writing

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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1.978 From Nano to Macro (MIT) 1.978 From Nano to Macro (MIT)

Description

The objective is to introduce large-scale atomistic modeling techniques and motivate its importance for solving problems in modern engineering sciences. We demonstrate how atomistic modeling can be successfully applied to understand how materials fail under extreme loading, emphasizing on the competition between ductile and brittle materials failure. We will demonstrate the techniques in describing failure of a copper nano-crystal. The objective is to introduce large-scale atomistic modeling techniques and motivate its importance for solving problems in modern engineering sciences. We demonstrate how atomistic modeling can be successfully applied to understand how materials fail under extreme loading, emphasizing on the competition between ductile and brittle materials failure. We will demonstrate the techniques in describing failure of a copper nano-crystal.

Subjects

large-scale atomistic modeling techniques | large-scale atomistic modeling techniques | modern engineering sciences | modern engineering sciences | atomistic modeling | atomistic modeling | extreme loading | extreme loading | ductile and brittle materials failure | ductile and brittle materials failure | copper nano-crystal | copper nano-crystal

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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16.100 Aerodynamics (MIT) 16.100 Aerodynamics (MIT)

Description

This course extends fluid mechanic concepts from Unified Engineering to the aerodynamic performance of wings and bodies in sub/supersonic regimes. 16.100 generally has four components: subsonic potential flows, including source/vortex panel methods; viscous flows, including laminar and turbulent boundary layers; aerodynamics of airfoils and wings, including thin airfoil theory, lifting line theory, and panel method/interacting boundary layer methods; and supersonic and hypersonic airfoil theory. Course material varies each year depending upon the focus of the design problem. This course extends fluid mechanic concepts from Unified Engineering to the aerodynamic performance of wings and bodies in sub/supersonic regimes. 16.100 generally has four components: subsonic potential flows, including source/vortex panel methods; viscous flows, including laminar and turbulent boundary layers; aerodynamics of airfoils and wings, including thin airfoil theory, lifting line theory, and panel method/interacting boundary layer methods; and supersonic and hypersonic airfoil theory. Course material varies each year depending upon the focus of the design problem.

Subjects

aerodynamics | aerodynamics | airflow | airflow | air | air | body | body | aircraft | aircraft | aerodynamic modes | aerodynamic modes | aero | aero | forces | forces | flow | flow | computational | computational | CFD | CFD | aerodynamic analysis | aerodynamic analysis | lift | lift | drag | drag | potential flows | potential flows | imcompressible | imcompressible | supersonic | supersonic | subsonic | subsonic | panel method | panel method | vortex lattice method | vortex lattice method | boudary layer | boudary layer | transition | transition | turbulence | turbulence | inviscid | inviscid | viscous | viscous | euler | euler | navier-stokes | navier-stokes | wind tunnel | wind tunnel | flow similarity | flow similarity | non-dimensional | non-dimensional | mach number | mach number | reynolds number | reynolds number | integral momentum | integral momentum | airfoil | airfoil | wing | wing | stall | stall | friction drag | friction drag | induced drag | induced drag | wave drag | wave drag | pressure drag | pressure drag | fluid element | fluid element | shear strain | shear strain | normal strain | normal strain | vorticity | vorticity | divergence | divergence | substantial derivative | substantial derivative | laminar | laminar | displacement thickness | displacement thickness | momentum thickness | momentum thickness | skin friction | skin friction | separation | separation | velocity profile | velocity profile | 2-d panel | 2-d panel | 3-d vortex | 3-d vortex | thin airfoil | thin airfoil | lifting line | lifting line | aspect ratio | aspect ratio | twist | twist | camber | camber | wing loading | wing loading | roll moments | roll moments | finite volume approximation | finite volume approximation | shocks | shocks | expansion fans | expansion fans | shock-expansion theory | shock-expansion theory | transonic | transonic | critical mach number | critical mach number | wing sweep | wing sweep | Kutta condition | Kutta condition | team project | team project | blended-wing-body | blended-wing-body | computational fluid dynamics | computational fluid dynamics

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

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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