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Tank engine 'Burra' ready for shipment to Australia Tank engine 'Burra' ready for shipment to Australia

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chimney | chimney | industry | industry | window | window | wheel | wheel | bar | bar | train | train | vent | vent | interesting | interesting | industrial | industrial | unitedkingdom | unitedkingdom | mark | mark | parts | parts | label | label | debris | debris | pipe | pipe | grain | grain | sydney | sydney | engine | engine | engineering | engineering | rail | rail | railway | railway | plate | plate | australia | australia | ground | ground | historic | historic | doorway | doorway | engines | engines | transportation | transportation | signage | signage | cylinder | cylinder | archives | archives | letter | letter | newsouthwales | newsouthwales | locomotive | locomotive | unusual | unusual | trainengine | trainengine | striking | striking | railways | railways | partnership | partnership | slope | slope | impressive | impressive | newcastleupontyne | newcastleupontyne | fascinating | fascinating | digitalimage | digitalimage | shipment | shipment | manufacture | manufacture | tankengine | tankengine | burra | burra | industrialheritage | industrialheritage | 1882 | 1882 | 1820 | 1820 | forthbanks | forthbanks | blackandwhitephotograph | blackandwhitephotograph | northeastofengland | northeastofengland | stationaryengines | stationaryengines | neutralbackground | neutralbackground | locomotiveengine | locomotiveengine | hawthornleslie | hawthornleslie | roberthawthorn | roberthawthorn | may1923 | may1923 | williamhawthorn | williamhawthorn | stocktonrailway | stocktonrailway | hawthornleslielocomotives | hawthornleslielocomotives | forthbanksworks | forthbanksworks | hawthornleslielocomotiveworks | hawthornleslielocomotiveworks | january1817 | january1817 | darlingtonrailway | darlingtonrailway | worldwideorders | worldwideorders | australengineeringsupplycompany | australengineeringsupplycompany

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IV (MIT) IV (MIT)

Description

Includes audio/video content: AV selected lectures, AV faculty introductions, AV special element video. The basic objective of Unified Engineering is to give a solid understanding of the fundamental disciplines of aerospace engineering, as well as their interrelationships and applications. These disciplines are Materials and Structures (M); Computers and Programming (C); Fluid Mechanics (F); Thermodynamics (T); Propulsion (P); and Signals and Systems (S). In choosing to teach these subjects in a unified manner, the instructors seek to explain the common intellectual threads in these disciplines, as well as their combined application to solve engineering Systems Problems (SP). Throughout the year, the instructors emphasize the connections among the disciplines. Includes audio/video content: AV selected lectures, AV faculty introductions, AV special element video. The basic objective of Unified Engineering is to give a solid understanding of the fundamental disciplines of aerospace engineering, as well as their interrelationships and applications. These disciplines are Materials and Structures (M); Computers and Programming (C); Fluid Mechanics (F); Thermodynamics (T); Propulsion (P); and Signals and Systems (S). In choosing to teach these subjects in a unified manner, the instructors seek to explain the common intellectual threads in these disciplines, as well as their combined application to solve engineering Systems Problems (SP). Throughout the year, the instructors emphasize the connections among the disciplines.

Subjects

Unified | Unified | Unified Engineering | Unified Engineering | aerospace | aerospace | CDIO | CDIO | C-D-I-O | C-D-I-O | conceive | conceive | design | design | implement | implement | operate | operate | team | team | team-based | team-based | discipline | discipline | materials | materials | structures | structures | materials and structures | materials and structures | computers | computers | programming | programming | computers and programming | computers and programming | fluids | fluids | fluid mechanics | fluid mechanics | thermodynamics | thermodynamics | propulsion | propulsion | signals | signals | systems | systems | signals and systems | signals and systems | systems problems | systems problems | fundamentals | fundamentals | technical communication | technical communication | graphical communication | graphical communication | communication | communication | reading | reading | research | research | experimentation | experimentation | personal response system | personal response system | prs | prs | active learning | active learning | First law | First law | first law of thermodynamics | first law of thermodynamics | thermo-mechanical | thermo-mechanical | energy | energy | energy conversion | energy conversion | aerospace power systems | aerospace power systems | propulsion systems | propulsion systems | aerospace propulsion systems | aerospace propulsion systems | heat | heat | work | work | thermal efficiency | thermal efficiency | forms of energy | forms of energy | energy exchange | energy exchange | processes | processes | heat engines | heat engines | engines | engines | steady-flow energy equation | steady-flow energy equation | energy flow | energy flow | flows | flows | path-dependence | path-dependence | path-independence | path-independence | reversibility | reversibility | irreversibility | irreversibility | state | state | thermodynamic state | thermodynamic state | performance | performance | ideal cycle | ideal cycle | simple heat engine | simple heat engine | cycles | cycles | thermal pressures | thermal pressures | temperatures | temperatures | linear static networks | linear static networks | loop method | loop method | node method | node method | linear dynamic networks | linear dynamic networks | classical methods | classical methods | state methods | state methods | state concepts | state concepts | dynamic systems | dynamic systems | resistive circuits | resistive circuits | sources | sources | voltages | voltages | currents | currents | Thevinin | Thevinin | Norton | Norton | initial value problems | initial value problems | RLC networks | RLC networks | characteristic values | characteristic values | characteristic vectors | characteristic vectors | transfer function | transfer function | ada | ada | ada programming | ada programming | programming language | programming language | software systems | software systems | programming style | programming style | computer architecture | computer architecture | program language evolution | program language evolution | classification | classification | numerical computation | numerical computation | number representation systems | number representation systems | assembly | assembly | SimpleSIM | SimpleSIM | RISC | RISC | CISC | CISC | operating systems | operating systems | single user | single user | multitasking | multitasking | multiprocessing | multiprocessing | domain-specific classification | domain-specific classification | recursive | recursive | execution time | execution time | fluid dynamics | fluid dynamics | physical properties of a fluid | physical properties of a fluid | fluid flow | fluid flow | mach | mach | reynolds | reynolds | conservation | conservation | conservation principles | conservation principles | conservation of mass | conservation of mass | conservation of momentum | conservation of momentum | conservation of energy | conservation of energy | continuity | continuity | inviscid | inviscid | steady flow | steady flow | simple bodies | simple bodies | airfoils | airfoils | wings | wings | channels | channels | aerodynamics | aerodynamics | forces | forces | moments | moments | equilibrium | equilibrium | freebody diagram | freebody diagram | free-body | free-body | free body | free body | planar force systems | planar force systems | equipollent systems | equipollent systems | equipollence | equipollence | support reactions | support reactions | reactions | reactions | static determinance | static determinance | determinate systems | determinate systems | truss analysis | truss analysis | trusses | trusses | method of joints | method of joints | method of sections | method of sections | statically indeterminate | statically indeterminate | three great principles | three great principles | 3 great principles | 3 great principles | indicial notation | indicial notation | rotation of coordinates | rotation of coordinates | coordinate rotation | coordinate rotation | stress | stress | extensional stress | extensional stress | shear stress | shear stress | notation | notation | plane stress | plane stress | stress equilbrium | stress equilbrium | stress transformation | stress transformation | mohr | mohr | mohr's circle | mohr's circle | principal stress | principal stress | principal stresses | principal stresses | extreme shear stress | extreme shear stress | strain | strain | extensional strain | extensional strain | shear strain | shear strain | strain-displacement | strain-displacement | compatibility | compatibility | strain transformation | strain transformation | transformation of strain | transformation of strain | mohr's circle for strain | mohr's circle for strain | principal strain | principal strain | extreme shear strain | extreme shear strain | uniaxial stress-strain | uniaxial stress-strain | material properties | material properties | classes of materials | classes of materials | bulk material properties | bulk material properties | origin of elastic properties | origin of elastic properties | structures of materials | structures of materials | atomic bonding | atomic bonding | packing of atoms | packing of atoms | atomic packing | atomic packing | crystals | crystals | crystal structures | crystal structures | polymers | polymers | estimate of moduli | estimate of moduli | moduli | moduli | composites | composites | composite materials | composite materials | modulus limited design | modulus limited design | material selection | material selection | materials selection | materials selection | measurement of elastic properties | measurement of elastic properties | stress-strain | stress-strain | stress-strain relations | stress-strain relations | anisotropy | anisotropy | orthotropy | orthotropy | measurements | measurements | engineering notation | engineering notation | Hooke | Hooke | Hooke's law | Hooke's law | general hooke's law | general hooke's law | equations of elasticity | equations of elasticity | boundary conditions | boundary conditions | multi-disciplinary | multi-disciplinary | models | models | engineering systems | engineering systems | experiments | experiments | investigations | investigations | experimental error | experimental error | design evaluation | design evaluation | evaluation | evaluation | trade studies | trade studies | effects of engineering | effects of engineering | social context | social context | engineering drawings | engineering drawings

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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IV (MIT) IV (MIT)

Description

The basic objective of Unified Engineering is to give a solid understanding of the fundamental disciplines of aerospace engineering, as well as their interrelationships and applications. These disciplines are Materials and Structures (M); Computers and Programming (C); Fluid Mechanics (F); Thermodynamics (T); Propulsion (P); and Signals and Systems (S). In choosing to teach these subjects in a unified manner, the instructors seek to explain the common intellectual threads in these disciplines, as well as their combined application to solve engineering Systems Problems (SP). Throughout the year, the instructors emphasize the connections among the disciplines.Technical RequirementsMicrosoft® Excel software is recommended for viewing the .xls files The basic objective of Unified Engineering is to give a solid understanding of the fundamental disciplines of aerospace engineering, as well as their interrelationships and applications. These disciplines are Materials and Structures (M); Computers and Programming (C); Fluid Mechanics (F); Thermodynamics (T); Propulsion (P); and Signals and Systems (S). In choosing to teach these subjects in a unified manner, the instructors seek to explain the common intellectual threads in these disciplines, as well as their combined application to solve engineering Systems Problems (SP). Throughout the year, the instructors emphasize the connections among the disciplines.Technical RequirementsMicrosoft® Excel software is recommended for viewing the .xls files

Subjects

Unified | Unified | Unified Engineering | Unified Engineering | aerospace | aerospace | CDIO | CDIO | C-D-I-O | C-D-I-O | conceive | conceive | design | design | implement | implement | operate | operate | team | team | team-based | team-based | discipline | discipline | materials | materials | structures | structures | materials and structures | materials and structures | computers | computers | programming | programming | computers and programming | computers and programming | fluids | fluids | fluid mechanics | fluid mechanics | thermodynamics | thermodynamics | propulsion | propulsion | signals | signals | systems | systems | signals and systems | signals and systems | systems problems | systems problems | fundamentals | fundamentals | technical communication | technical communication | graphical communication | graphical communication | communication | communication | reading | reading | research | research | experimentation | experimentation | personal response system | personal response system | prs | prs | active learning | active learning | First law | First law | first law of thermodynamics | first law of thermodynamics | thermo-mechanical | thermo-mechanical | energy | energy | energy conversion | energy conversion | aerospace power systems | aerospace power systems | propulsion systems | propulsion systems | aerospace propulsion systems | aerospace propulsion systems | heat | heat | work | work | thermal efficiency | thermal efficiency | forms of energy | forms of energy | energy exchange | energy exchange | processes | processes | heat engines | heat engines | engines | engines | steady-flow energy equation | steady-flow energy equation | energy flow | energy flow | flows | flows | path-dependence | path-dependence | path-independence | path-independence | reversibility | reversibility | irreversibility | irreversibility | state | state | thermodynamic state | thermodynamic state | performance | performance | ideal cycle | ideal cycle | simple heat engine | simple heat engine | cycles | cycles | thermal pressures | thermal pressures | temperatures | temperatures | linear static networks | linear static networks | loop method | loop method | node method | node method | linear dynamic networks | linear dynamic networks | classical methods | classical methods | state methods | state methods | state concepts | state concepts | dynamic systems | dynamic systems | resistive circuits | resistive circuits | sources | sources | voltages | voltages | currents | currents | Thevinin | Thevinin | Norton | Norton | initial value problems | initial value problems | RLC networks | RLC networks | characteristic values | characteristic values | characteristic vectors | characteristic vectors | transfer function | transfer function | ada | ada | ada programming | ada programming | programming language | programming language | software systems | software systems | programming style | programming style | computer architecture | computer architecture | program language evolution | program language evolution | classification | classification | numerical computation | numerical computation | number representation systems | number representation systems | assembly | assembly | SimpleSIM | SimpleSIM | RISC | RISC | CISC | CISC | operating systems | operating systems | single user | single user | multitasking | multitasking | multiprocessing | multiprocessing | domain-specific classification | domain-specific classification | recursive | recursive | execution time | execution time | fluid dynamics | fluid dynamics | physical properties of a fluid | physical properties of a fluid | fluid flow | fluid flow | mach | mach | reynolds | reynolds | conservation | conservation | conservation principles | conservation principles | conservation of mass | conservation of mass | conservation of momentum | conservation of momentum | conservation of energy | conservation of energy | continuity | continuity | inviscid | inviscid | steady flow | steady flow | simple bodies | simple bodies | airfoils | airfoils | wings | wings | channels | channels | aerodynamics | aerodynamics | forces | forces | moments | moments | equilibrium | equilibrium | freebody diagram | freebody diagram | free-body | free-body | free body | free body | planar force systems | planar force systems | equipollent systems | equipollent systems | equipollence | equipollence | support reactions | support reactions | reactions | reactions | static determinance | static determinance | determinate systems | determinate systems | truss analysis | truss analysis | trusses | trusses | method of joints | method of joints | method of sections | method of sections | statically indeterminate | statically indeterminate | three great principles | three great principles | 3 great principles | 3 great principles | indicial notation | indicial notation | rotation of coordinates | rotation of coordinates | coordinate rotation | coordinate rotation | stress | stress | extensional stress | extensional stress | shear stress | shear stress | notation | notation | plane stress | plane stress | stress equilbrium | stress equilbrium | stress transformation | stress transformation | mohr | mohr | mohr's circle | mohr's circle | principal stress | principal stress | principal stresses | principal stresses | extreme shear stress | extreme shear stress | strain | strain | extensional strain | extensional strain | shear strain | shear strain | strain-displacement | strain-displacement | compatibility | compatibility | strain transformation | strain transformation | transformation of strain | transformation of strain | mohr's circle for strain | mohr's circle for strain | principal strain | principal strain | extreme shear strain | extreme shear strain | uniaxial stress-strain | uniaxial stress-strain | material properties | material properties | classes of materials | classes of materials | bulk material properties | bulk material properties | origin of elastic properties | origin of elastic properties | structures of materials | structures of materials | atomic bonding | atomic bonding | packing of atoms | packing of atoms | atomic packing | atomic packing | crystals | crystals | crystal structures | crystal structures | polymers | polymers | estimate of moduli | estimate of moduli | moduli | moduli | composites | composites | composite materials | composite materials | modulus limited design | modulus limited design | material selection | material selection | materials selection | materials selection | measurement of elastic properties | measurement of elastic properties | stress-strain | stress-strain | stress-strain relations | stress-strain relations | anisotropy | anisotropy | orthotropy | orthotropy | measurements | measurements | engineering notation | engineering notation | Hooke | Hooke | Hooke's law | Hooke's law | general hooke's law | general hooke's law | equations of elasticity | equations of elasticity | boundary conditions | boundary conditions | multi-disciplinary | multi-disciplinary | models | models | engineering systems | engineering systems | experiments | experiments | investigations | investigations | experimental error | experimental error | design evaluation | design evaluation | evaluation | evaluation | trade studies | trade studies | effects of engineering | effects of engineering | social context | social context | engineering drawings | engineering drawings | 16.01 | 16.01 | 16.02 | 16.02 | 16.03 | 16.03 | 16.04 | 16.04

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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North Eastern Railway Company North Eastern Railway Company

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london | london | industry | industry | window | window | wheel | wheel | metal | metal | train | train | handle | handle | vent | vent | interesting | interesting | industrial | industrial | carriage | carriage | panel | panel | unitedkingdom | unitedkingdom | mark | mark | pipe | pipe | grain | grain | engine | engine | engineering | engineering | rail | rail | railway | railway | ground | ground | historic | historic | doorway | doorway | engines | engines | transportation | transportation | bolt | bolt | cylinder | cylinder | archives | archives | locomotive | locomotive | unusual | unusual | striking | striking | railways | railways | hebburn | hebburn | partnership | partnership | impressive | impressive | newcastleupontyne | newcastleupontyne | fascinating | fascinating | digitalimage | digitalimage | 1885 | 1885 | 1924 | 1924 | manufacture | manufacture | tankengine | tankengine | industrialheritage | industrialheritage | lner | lner | 1820 | 1820 | forthbanks | forthbanks | blackandwhitephotograph | blackandwhitephotograph | northeastofengland | northeastofengland | stationaryengines | stationaryengines | neutralbackground | neutralbackground | locomotiveengine | locomotiveengine | andrewleslie | andrewleslie | marineengineering | marineengineering | hawthornleslie | hawthornleslie | passengerlocomotive | passengerlocomotive | northeasternrailwaycompany | northeasternrailwaycompany | roberthawthorn | roberthawthorn | williamhawthorn | williamhawthorn | stocktonrailway | stocktonrailway | hawthornleslielocomotives | hawthornleslielocomotives | londonnortheasternrailwaycompany | londonnortheasternrailwaycompany | forthbanksworks | forthbanksworks | hawthornleslielocomotiveworks | hawthornleslielocomotiveworks | darlingtonrailway | darlingtonrailway | lner1784 | lner1784 | randwhawthornlesliecoltd | randwhawthornlesliecoltd

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Side Tank Engine for the Lagos Railway, Nigeria Side Tank Engine for the Lagos Railway, Nigeria

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roof | roof | chimney | chimney | industry | industry | window | window | wheel | wheel | metal | metal | train | train | vent | vent | interesting | interesting | construction | construction | cabin | cabin | industrial | industrial | carriage | carriage | body | body | mark | mark | parts | parts | debris | debris | letters | letters | grain | grain | engineering | engineering | rail | rail | railway | railway | structure | structure | steam | steam | number | number | piston | piston | doorway | doorway | engines | engines | transportation | transportation | bolt | bolt | cylinder | cylinder | nigeria | nigeria | locomotive | locomotive | unusual | unusual | identification | identification | railways | railways | locomotives | locomotives | manufactured | manufactured | newcastleupontyne | newcastleupontyne | fascinating | fascinating | digitalimage | digitalimage | tankengine | tankengine | industrialheritage | industrialheritage | forthbanks | forthbanks | stationaryengines | stationaryengines | neutralbackground | neutralbackground | sepiaphotograph | sepiaphotograph | locomotiveengine | locomotiveengine | hawthornleslie | hawthornleslie | crownagents | crownagents | roberthawthorn | roberthawthorn | williamhawthorn | williamhawthorn | november1910 | november1910 | hawthornleslielocomotives | hawthornleslielocomotives | forthbanksworks | forthbanksworks | lagosrailway | lagosrailway | sidetankengines | sidetankengines | hawthornleslielocomotiveworks | hawthornleslielocomotiveworks | southnigeria | southnigeria

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20.109 Laboratory Fundamentals in Biological Engineering (MIT) 20.109 Laboratory Fundamentals in Biological Engineering (MIT)

Description

This course introduces experimental biochemical and molecular techniques from a quantitative engineering perspective. Experimental design, rigorous data analysis, and scientific communication form the underpinnings of this subject. Three discovery-based experimental modules focus on genome engineering, expression engineering, and biomaterial engineering.This OCW site is based on the source OpenWetWare class Wiki, found at 20.109(F07): Laboratory Fundamentals of Biological Engineering. This course introduces experimental biochemical and molecular techniques from a quantitative engineering perspective. Experimental design, rigorous data analysis, and scientific communication form the underpinnings of this subject. Three discovery-based experimental modules focus on genome engineering, expression engineering, and biomaterial engineering.This OCW site is based on the source OpenWetWare class Wiki, found at 20.109(F07): Laboratory Fundamentals of Biological Engineering.

Subjects

biological engineering | biological engineering | biology | biology | bioengineering | bioengineering | DNA | DNA | PCR | PCR | RNA | RNA | polymerase chain reaction | polymerase chain reaction | systems engineering | systems engineering | DNA engineering | DNA engineering | protein engineering | protein engineering | bio-material engineering | bio-material engineering | restriction map | restriction map | lipofection | lipofection | screening library | screening library | bacterial photography | bacterial photography | device characterization | device characterization | biological parts | biological parts | openwetware | openwetware

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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Side tank engine 'Huaral' built by Hawthorn Leslie Side tank engine 'Huaral' built by Hawthorn Leslie

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light | light | shadow | shadow | chimney | chimney | industry | industry | peru | peru | window | window | wheel | wheel | metal | metal | stone | stone | bar | bar | train | train | handle | handle | vent | vent | interesting | interesting | industrial | industrial | panel | panel | mechanical | mechanical | unitedkingdom | unitedkingdom | mark | mark | parts | parts | letters | letters | transport | transport | pipe | pipe | guard | guard | grain | grain | engine | engine | engineering | engineering | rail | rail | railway | railway | plate | plate | historic | historic | number | number | doorway | doorway | step | step | engines | engines | transportation | transportation | bolt | bolt | cylinder | cylinder | locomotive | locomotive | unusual | unusual | identification | identification | railways | railways | stockton | stockton | partnership | partnership | impressive | impressive | manufactured | manufactured | lever | lever | newcastleupontyne | newcastleupontyne | fascinating | fascinating | digitalimage | digitalimage | tankengine | tankengine | industrialheritage | industrialheritage | forthbanks | forthbanks | twentiethcentury | twentiethcentury | blackandwhitephotograph | blackandwhitephotograph | northeastofengland | northeastofengland | huaral | huaral | neutralbackground | neutralbackground | sepiaphotograph | sepiaphotograph | locomotiveengine | locomotiveengine | hawthornleslie | hawthornleslie | roberthawthorn | roberthawthorn | williamhawthorn | williamhawthorn | november1910 | november1910 | sidetankengine | sidetankengine | hawthornleslielocomotives | hawthornleslielocomotives | forthbanksworks | forthbanksworks | hawthornleslielocomotiveworks | hawthornleslielocomotiveworks | 28november1910 | 28november1910 | darlingtonrailway | darlingtonrailway | northeasternrailwayofperu | northeasternrailwayofperu

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20.109 Laboratory Fundamentals in Biological Engineering (MIT) 20.109 Laboratory Fundamentals in Biological Engineering (MIT)

Description

This course introduces experimental biochemical and molecular techniques from a quantitative engineering perspective. Rigorous quantitative data collection, statistical analysis, and conceptual understanding of instrumentation design and application form the underpinnings of this course. The four discovery based modules include DNA Engineering, Protein Engineering, Systems Engineering, and Biomaterials Engineering. Additional information is available on the course Wiki (hosted on OpenWetWare.) Teaching Fellows Reshma Shetty Maria Foley Eileen Higham Yoon Sung Nam This course introduces experimental biochemical and molecular techniques from a quantitative engineering perspective. Rigorous quantitative data collection, statistical analysis, and conceptual understanding of instrumentation design and application form the underpinnings of this course. The four discovery based modules include DNA Engineering, Protein Engineering, Systems Engineering, and Biomaterials Engineering. Additional information is available on the course Wiki (hosted on OpenWetWare.) Teaching Fellows Reshma Shetty Maria Foley Eileen Higham Yoon Sung Nam

Subjects

biological engineering | biological engineering | biology | biology | bioengineering | bioengineering | DNA | DNA | PCR | PCR | RNA | RNA | polymerase chain reaction | polymerase chain reaction | systems engineering | systems engineering | DNA engineering | DNA engineering | protein engineering | protein engineering | bio-material engineering | bio-material engineering | restriction map | restriction map | lipofection | lipofection | screening library | screening library | bacterial photography | bacterial photography | device characterization | device characterization | biological parts | biological parts | openwetware | openwetware

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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20.010J Introduction to Bioengineering (BE.010J) (MIT) 20.010J Introduction to Bioengineering (BE.010J) (MIT)

Description

Includes audio/video content: AV selected lectures, AV special element video. Bioengineering at MIT is represented by the diverse curricula offered by most Departments in the School of Engineering. This course samples the wide variety of bioengineering options for students who plan to major in one of the undergraduate Engineering degree programs. The beginning lectures describe the science basis for bioengineering with particular emphasis on molecular cell biology and systems biology. Bioengineering faculty will then describe the bioengineering options in a particular engineering course as well as the type of research conducted by faculty in the department. Includes audio/video content: AV selected lectures, AV special element video. Bioengineering at MIT is represented by the diverse curricula offered by most Departments in the School of Engineering. This course samples the wide variety of bioengineering options for students who plan to major in one of the undergraduate Engineering degree programs. The beginning lectures describe the science basis for bioengineering with particular emphasis on molecular cell biology and systems biology. Bioengineering faculty will then describe the bioengineering options in a particular engineering course as well as the type of research conducted by faculty in the department.

Subjects

biological engineering | biological engineering | bioengineering | bioengineering | biomems | biomems | biomaterials | biomaterials | biomechanical engineering | biomechanical engineering | biology | biology | engineering | engineering | bioprocessing | bioprocessing | biological materials | biological materials | biological engineers | biological engineers

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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Crane locomotive built in Newcastle upon Tyne Crane locomotive built in Newcastle upon Tyne

Description

Subjects

paris | paris | france | france | industry | industry | wheel | wheel | sepia | sepia | train | train | interesting | interesting | construction | construction | cabin | cabin | industrial | industrial | panel | panel | unitedkingdom | unitedkingdom | crane | crane | mark | mark | parts | parts | letters | letters | pipe | pipe | guard | guard | grain | grain | engine | engine | engineering | engineering | rail | rail | railway | railway | ground | ground | structure | structure | historic | historic | doorway | doorway | step | step | engines | engines | signage | signage | bolt | bolt | cylinder | cylinder | archives | archives | groove | groove | locomotive | locomotive | unusual | unusual | hook | hook | railways | railways | development | development | weight | weight | impressive | impressive | hawthorn | hawthorn | lever | lever | newcastleupontyne | newcastleupontyne | fascinating | fascinating | digitalimage | digitalimage | tankengine | tankengine | manufacturing | manufacturing | industrialheritage | industrialheritage | forthbanks | forthbanks | blackandwhitephotograph | blackandwhitephotograph | northeastofengland | northeastofengland | neutralbackground | neutralbackground | locomotiveengine | locomotiveengine | hawthornleslie | hawthornleslie | roberthawthorn | roberthawthorn | williamhawthorn | williamhawthorn | cranelocomotive | cranelocomotive | stocktonrailway | stocktonrailway | hawthornleslielocomotives | hawthornleslielocomotives | forthbanksworks | forthbanksworks | hawthornleslielocomotiveworks | hawthornleslielocomotiveworks | darlingtonrailway | darlingtonrailway | mrhanning | mrhanning | 30march1909 | 30march1909

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Work in progress on two Clark-Sulzer engines Work in progress on two Clark-Sulzer engines

Description

Subjects

shadow | shadow | abstract | abstract | industry | industry | metal | metal | wall | wall | shirt | shirt | hair | hair | kneel | kneel | landscape | landscape | shoe | shoe | daylight | daylight | workers | workers | construction | construction | support | support | industrial | industrial | pattern | pattern | ship | ship | shine | shine | darkness | darkness | hole | hole | timber | timber | steel | steel | parts | parts | pipe | pipe | working | working | platform | platform | engine | engine | structures | structures | progress | progress | plate | plate | vessel | vessel | social | social | row | row | tools | tools | hose | hose | pole | pole | beam | beam | climbing | climbing | maritime | maritime | bolt | bolt | cylinder | cylinder | overalls | overalls | ladder | ladder | unusual | unusual | curve | curve | shipyard | shipyard | airvent | airvent | development | development | attentive | attentive | lid | lid | lever | lever | fascinating | fascinating | digitalimage | digitalimage | sunderland | sunderland | bending | bending | manufacture | manufacture | shipbuilding | shipbuilding | southwick | southwick | blackandwhitephotograph | blackandwhitephotograph | marineengineering | marineengineering | bedplate | bedplate | americastar | americastar | may1963 | may1963 | 6cylinderengine | 6cylinderengine | 8cylinderengine | 8cylinderengine | refrigeratedcargovessel | refrigeratedcargovessel | bartramsonsltd | bartramsonsltd | williamdoxfordsonsltd | williamdoxfordsonsltd | georgeclarkltd | georgeclarkltd | southwickengineworks | southwickengineworks | workersofsunderland | workersofsunderland | clarksulzer | clarksulzer | ‘mauricedelmas’ | ‘mauricedelmas’ | twamref1361323 | twamref1361323 | mauricedelmas | mauricedelmas

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BE.010J Introduction to Bioengineering (MIT) BE.010J Introduction to Bioengineering (MIT)

Description

Bioengineering at MIT is represented by the diverse curricula offered by most Departments in the School of Engineering. This course samples the wide variety of bioengineering options for students who plan to major in one of the undergraduate Engineering degree programs. The beginning lectures describe the science basis for bioengineering with particular emphasis on molecular cell biology and systems biology. Bioengineering faculty will then describe the bioengineering options in a particular engineering course as well as the type of research conducted by faculty in the department.Technical RequirementsSpecial software is required to use some of the files in this course: .rm, .mp3. Bioengineering at MIT is represented by the diverse curricula offered by most Departments in the School of Engineering. This course samples the wide variety of bioengineering options for students who plan to major in one of the undergraduate Engineering degree programs. The beginning lectures describe the science basis for bioengineering with particular emphasis on molecular cell biology and systems biology. Bioengineering faculty will then describe the bioengineering options in a particular engineering course as well as the type of research conducted by faculty in the department.Technical RequirementsSpecial software is required to use some of the files in this course: .rm, .mp3.

Subjects

biological engineering | biological engineering | bioengineering | bioengineering | biomems | biomems | biomaterials | biomaterials | biomechanical engineering | biomechanical engineering | biology | biology | engineering | engineering | bioprocessing | bioprocessing | biological materials | biological materials | biological engineers | biological engineers

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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BE.010J Introduction to Bioengineering (MIT) BE.010J Introduction to Bioengineering (MIT)

Description

Designed as a freshmen seminar course, faculty from various School of Engineering departments describe the bioengineering research and educational opportunities specific to and offered by their departments. Background lectures by the BE.010J staff introduce students to the fundamental scientific basis for bioengineering. Specially produced videos provide additional background information that is supplemented with readings from newspaper and magazine articles.Technical RequirementsRealOne™ Player is required to run the .rm files found in this course. Designed as a freshmen seminar course, faculty from various School of Engineering departments describe the bioengineering research and educational opportunities specific to and offered by their departments. Background lectures by the BE.010J staff introduce students to the fundamental scientific basis for bioengineering. Specially produced videos provide additional background information that is supplemented with readings from newspaper and magazine articles.Technical RequirementsRealOne™ Player is required to run the .rm files found in this course.

Subjects

biological engineering | biological engineering | bioengineering | bioengineering | biomems | biomems | biomaterials | biomaterials | biomechanical engineering | biomechanical engineering | biology | biology | engineering | engineering | bioprocessing | bioprocessing | biological materials | biological materials | biological engineers | biological engineers | BE.010 | BE.010 | 2.790 | 2.790 | 6.025 | 6.025 | 7.38 | 7.38 | 10.010 | 10.010

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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Locomotive for the Singapore Railway Locomotive for the Singapore Railway

Description

Subjects

chimney | chimney | industry | industry | window | window | wheel | wheel | stone | stone | train | train | interesting | interesting | cabin | cabin | industrial | industrial | unitedkingdom | unitedkingdom | mark | mark | parts | parts | label | label | debris | debris | grain | grain | engineering | engineering | rail | rail | railway | railway | plate | plate | historic | historic | doorway | doorway | photograph | photograph | engines | engines | cylinder | cylinder | locomotive | locomotive | unusual | unusual | railways | railways | stockton | stockton | partnership | partnership | impressive | impressive | newcastleupontyne | newcastleupontyne | fascinating | fascinating | digitalimage | digitalimage | 1831 | 1831 | tankengine | tankengine | steamlocomotive | steamlocomotive | manufacturing | manufacturing | industrialheritage | industrialheritage | 1820 | 1820 | forthbanks | forthbanks | blackandwhitephotograph | blackandwhitephotograph | northeastofengland | northeastofengland | neutralbackground | neutralbackground | singaporerailway | singaporerailway | sepiaphotograph | sepiaphotograph | locomotiveengine | locomotiveengine | hawthornleslie | hawthornleslie | roberthawthorn | roberthawthorn | march1910 | march1910 | williamhawthorn | williamhawthorn | sidetankengine | sidetankengine | hawthornleslielocomotives | hawthornleslielocomotives | forthbanksworks | forthbanksworks | hawthornleslielocomotiveworks | hawthornleslielocomotiveworks | crownagentsforthecolonies | crownagentsforthecolonies | january1817 | january1817 | darlingtonrailway | darlingtonrailway

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Side tank engine 'Earl of Mount Edgcumbe' Side tank engine 'Earl of Mount Edgcumbe'

Description

Subjects

roof | roof | industry | industry | window | window | wheel | wheel | wall | wall | train | train | interesting | interesting | industrial | industrial | panel | panel | unitedkingdom | unitedkingdom | parts | parts | pipe | pipe | engineering | engineering | rail | rail | plate | plate | historic | historic | doorway | doorway | engines | engines | transportation | transportation | signage | signage | bolt | bolt | cylinder | cylinder | locomotive | locomotive | unusual | unusual | railways | railways | cog | cog | partnership | partnership | newcastleupontyne | newcastleupontyne | fascinating | fascinating | digitalimage | digitalimage | tankengine | tankengine | manufacturing | manufacturing | industrialheritage | industrialheritage | forthbanks | forthbanks | blackandwhitephotograph | blackandwhitephotograph | southwestofengland | southwestofengland | sepiaphotograph | sepiaphotograph | locomotiveengine | locomotiveengine | hawthornleslie | hawthornleslie | earlofmountedgcumbe | earlofmountedgcumbe | roberthawthorn | roberthawthorn | williamhawthorn | williamhawthorn | sidetankengine | sidetankengine | october1906 | october1906 | hawthornleslielocomotives | hawthornleslielocomotives | berealstoncalstockrailway | berealstoncalstockrailway | forthbanksworks | forthbanksworks | 13october1906 | 13october1906

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Tank engine for the Weardale Lead Company Tank engine for the Weardale Lead Company

Description

Subjects

roof | roof | blackandwhite | blackandwhite | building | building | industry | industry | wheel | wheel | metal | metal | stone | stone | sepia | sepia | train | train | handle | handle | interesting | interesting | construction | construction | cabin | cabin | track | track | industrial | industrial | panel | panel | mechanical | mechanical | unitedkingdom | unitedkingdom | mark | mark | parts | parts | transport | transport | pipe | pipe | grain | grain | engine | engine | machine | machine | engineering | engineering | rail | rail | railway | railway | plate | plate | ground | ground | motto | motto | equipment | equipment | doorway | doorway | photograph | photograph | engines | engines | transportation | transportation | bolt | bolt | locomotive | locomotive | motor | motor | unusual | unusual | hook | hook | railways | railways | development | development | partnership | partnership | cylinders | cylinders | impressive | impressive | lid | lid | inscription | inscription | newcastleupontyne | newcastleupontyne | fascinating | fascinating | digitalimage | digitalimage | tankengine | tankengine | industrialheritage | industrialheritage | 1820 | 1820 | northeastofengland | northeastofengland | stocktonanddarlingtonrailway | stocktonanddarlingtonrailway | neutralbackground | neutralbackground | hawthornleslie | hawthornleslie | april1913 | april1913 | roberthawthorn | roberthawthorn | williamhawthorn | williamhawthorn | weardaleleadcompany | weardaleleadcompany | hawthornleslielocomotives | hawthornleslielocomotives | forthbanksworks | forthbanksworks | hawthornleslielocomotiveworks | hawthornleslielocomotiveworks | engineno3029 | engineno3029 | january1817 | january1817

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2.670 Mechanical Engineering Tools (MIT) 2.670 Mechanical Engineering Tools (MIT)

Description

This course introduces the fundamentals of machine tool and computer tool use. Students work with a variety of machine tools including the bandsaw, milling machine, and lathe. Instruction given on MATLAB®, MAPLE®, XESS™, and CAD. Emphasis is on problem solving, not programming or algorithmic development. Assignments are project-oriented relating to mechanical engineering topics. It is recommended that students take this subject in the first IAP after declaring the major in Mechanical Engineering. This course was co-created by Prof. Douglas Hart and Dr. Kevin Otto. This course introduces the fundamentals of machine tool and computer tool use. Students work with a variety of machine tools including the bandsaw, milling machine, and lathe. Instruction given on MATLAB®, MAPLE®, XESS™, and CAD. Emphasis is on problem solving, not programming or algorithmic development. Assignments are project-oriented relating to mechanical engineering topics. It is recommended that students take this subject in the first IAP after declaring the major in Mechanical Engineering. This course was co-created by Prof. Douglas Hart and Dr. Kevin Otto.

Subjects

fundamentals of machine tool and computer tool use | fundamentals of machine tool and computer tool use | bandsaw | bandsaw | milling machine | milling machine | lathe | lathe | MATLAB | MATLAB | MAPLE | MAPLE | XESS | XESS | CAD | CAD | problem solving | problem solving | project-oriented | project-oriented | machine tool use | machine tool use | computer tool use | computer tool use | mechanical engineering projects | mechanical engineering projects | Inter Activities Period | Inter Activities Period | IAP | IAP | engine design | engine design | engine construction | engine construction | Stirling engines | Stirling engines

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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Tank engine 'Burra' ready for shipment to Australia

Description

An image of the tank engine 'Burra' ordered in May 1923 by Austral Engineering Supply Company, Sydney, Australia (TWAM ref. DS.RSH/1/1/4). Engine nos. 3574. Built for: Austral Engineering Supply Company, Sydney, Australia. Date ordered 17 May 1923. Gauge of Railway: 2 feet. Principal Dimensions. Cylinders dia: 8 inches. Cylinders stroke: 12 inches. Wheels (Dia. of coupled): 2 feet. Wheel-base - total: 4 feet. Water capacity: 140 gallons. Fuel capacity: 10 cubic feet = 0.23 tons. Heating surface ? total: 136.4 square feet. Grate area: 2.95 square feet. Working pressure: 160 lbs per square inch. Total weight in working order: 7.46 tons. Tractive force taking 90% of the working pressure: 4608 lbs. Tractive force taking 75% of the working pressure: 3840 lbs. Approximate shipping space: 614 cubic feet. Approximate gross weight packed for shipment: 6.875 tons. Code Word: BURRA This album celebrates the achievements of the Hawthorn Leslie locomotive works at Forth Banks, Newcastle upon Tyne. The works were established by Robert Hawthorn in January 1817 and in 1820 his brother, William Hawthorn joined him as a partner. The firm initially manufactured stationary engines but within a few years diversified into marine engineering and in 1831 produced its first locomotive engine for the Stockton and Darlington Railway. In 1870 the firm established a separate marine engine works on the River Tyne at St. Peter?s and from 1882 the Forth Banks Works became devoted entirely to the manufacture of locomotives. In 1885 the firm amalgamated with the shipyard of Andrew Leslie at Hebburn, creating the world-famous shipbuilding and engineering company R and W. Hawthorn, Leslie & Co. Ltd. The Forth Banks Works of Hawthorn Leslie produced engines of all types and sizes for railways around the world. The output of the Forth Banks Works included a large number of tank engines for industrial works and collieries and the firm established a speciality in the construction of crane locomotives. The images in this set date from the early twentieth century and are a reminder of Newcastle upon Tyne?s proud industrial heritage. They are taken from a series of photograph albums produced by Hawthorn Leslie. The albums were kindly donated to Tyne & Wear Archives by Alan C. Baker and T.D. Allen Civil. (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 archives@twmuseums.org.uk.

Subjects

train | locomotive | tankengine | industry | industrial | hawthornleslie | forthbanksworks | railways | newcastleupontyne | engineering | engines | interesting | historic | australengineeringsupplycompany | sydney | australia | industrialheritage | blackandwhitephotograph | digitalimage | newsouthwales | may1923 | hawthornleslielocomotives | burra | engine | label | wheel | cylinder | hawthornleslielocomotiveworks | forthbanks | roberthawthorn | january1817 | williamhawthorn | partnership | 1820 | manufacture | stationaryengines | locomotiveengine | stocktonrailway | darlingtonrailway | 1882 | railway | mark | grain | neutralbackground | rail | ground | debris | pipe | bar | vent | chimney | signage | letter | fascinating | unusual | impressive | striking | transportation | worldwideorders | shipment | archives | northeastofengland | unitedkingdom | window | doorway | parts | plate | slope | trainengine

License

No known copyright restrictions

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Locomotive for Ashington Coal Company Locomotive for Ashington Coal Company

Description

Subjects

blur | blur | industry | industry | window | window | wheel | wheel | stone | stone | train | train | handle | handle | vent | vent | interesting | interesting | cabin | cabin | industrial | industrial | unitedkingdom | unitedkingdom | mark | mark | grain | grain | engine | engine | engineering | engineering | rail | rail | railway | railway | historic | historic | doorway | doorway | northumberland | northumberland | engines | engines | transportation | transportation | controls | controls | cylinder | cylinder | archives | archives | locomotive | locomotive | unusual | unusual | 1919 | 1919 | railways | railways | impressive | impressive | magnificent | magnificent | shaft | shaft | newcastleupontyne | newcastleupontyne | fascinating | fascinating | digitalimage | digitalimage | manufacture | manufacture | tankengine | tankengine | industrialheritage | industrialheritage | forthbanks | forthbanks | northeastengland | northeastengland | blackandwhitephotograph | blackandwhitephotograph | northeastofengland | northeastofengland | neutralbackground | neutralbackground | hawthornleslie | hawthornleslie | sidetank | sidetank | ashingtoncoalcompany | ashingtoncoalcompany | roberthawthorn | roberthawthorn | williamhawthorn | williamhawthorn | sidetanklocomotive | sidetanklocomotive | hawthornleslielocomotives | hawthornleslielocomotives | forthbanksworks | forthbanksworks | hawthornleslielocomotiveworks | hawthornleslielocomotiveworks

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2.61 Internal Combustion Engines (MIT) 2.61 Internal Combustion Engines (MIT)

Description

This course elaborates on the fundamentals of how the design and operation of internal combustion engines affect their performance, operation, fuel requirements, and environmental impact, study of fluid flow, thermodynamics, combustion, heat transfer and friction phenomena, and fuel properties, relevant to engine power, efficiency, and emissions, examination of design features and operating characteristics of different types of internal combustion engines: spark-ignition, diesel, stratified-charge, and mixed-cycle engines. The project section details the Engine Laboratory project. We have aimed this course for graduate and senior undergraduate students. This course elaborates on the fundamentals of how the design and operation of internal combustion engines affect their performance, operation, fuel requirements, and environmental impact, study of fluid flow, thermodynamics, combustion, heat transfer and friction phenomena, and fuel properties, relevant to engine power, efficiency, and emissions, examination of design features and operating characteristics of different types of internal combustion engines: spark-ignition, diesel, stratified-charge, and mixed-cycle engines. The project section details the Engine Laboratory project. We have aimed this course for graduate and senior undergraduate students.

Subjects

internal combustion engines | internal combustion engines | engine operation | engine operation | engine fuel requirements | engine fuel requirements | environmental impact | environmental impact | fluid flow | fluid flow | thermodynamics | thermodynamics | combustion | combustion | heat transfer and friction phenomena | heat transfer and friction phenomena | fuel properties | fuel properties | power | power | efficiency | efficiency | emissions | emissions | spark-ignition | spark-ignition | diesel | diesel | stratified-charge | stratified-charge | mixed-cycle engine. | mixed-cycle engine.

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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1.782 Environmental Engineering Masters of Engineering Project (MIT) 1.782 Environmental Engineering Masters of Engineering Project (MIT)

Description

This class is one of the core requirements for the Environmental Masters of Engineering program. It is designed to teach about environmental engineering through the use of case studies, computer software tools, and seminars from industrial experts. Case studies provide the basis for group projects as well as individual theses. Past case studies have included the MMR Superfund site on Cape Cod; restoration of the Florida Everglades; dredging of Boston Harbor; local watershed trading programs; appropriate wastewater treatment technology for Brazil; point-of-use water treatment for Nepal, Brownfields Development in Providence, RI, and water resource planning for the island of Cyprus. This class spans the entire academic year: students must register for the Fall term, IAP, and the Spring term. This class is one of the core requirements for the Environmental Masters of Engineering program. It is designed to teach about environmental engineering through the use of case studies, computer software tools, and seminars from industrial experts. Case studies provide the basis for group projects as well as individual theses. Past case studies have included the MMR Superfund site on Cape Cod; restoration of the Florida Everglades; dredging of Boston Harbor; local watershed trading programs; appropriate wastewater treatment technology for Brazil; point-of-use water treatment for Nepal, Brownfields Development in Providence, RI, and water resource planning for the island of Cyprus. This class spans the entire academic year: students must register for the Fall term, IAP, and the Spring term.

Subjects

civil engineering; environmental engineering; professional practice; methodology; thesis; proposal; yonder; geotechnical data; water treatment; aquifer; groundwater; hydrology; Chattahoochee; Tennessee; US Virgin Islands; pollution; contaminants; drinking water | civil engineering; environmental engineering; professional practice; methodology; thesis; proposal; yonder; geotechnical data; water treatment; aquifer; groundwater; hydrology; Chattahoochee; Tennessee; US Virgin Islands; pollution; contaminants; drinking water | civil engineering | civil engineering | environmental engineering | environmental engineering | professional practice | professional practice | methodology | methodology | thesis | thesis | proposal | proposal | yonder | yonder | geotechnical data | geotechnical data | water treatment | water treatment | aquifer | aquifer | groundwater | groundwater | hydrology | hydrology | Chattahoochee | Chattahoochee | Tennessee | Tennessee | US Virgin Islands | US Virgin Islands | pollution | pollution | contaminants | contaminants | drinking water | drinking water

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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1.033 Mechanics of Material Systems: An Energy Approach (MIT) 1.033 Mechanics of Material Systems: An Energy Approach (MIT)

Description

1.033 provides an introduction to continuum mechanics and material modeling of engineering materials based on first energy principles: deformation and strain; momentum balance, stress and stress states; elasticity and elasticity bounds; plasticity and yield design. The overarching theme is a unified mechanistic language using thermodynamics, which allows understanding, modeling and design of a large range of engineering materials. This course is offered both to undergraduate (1.033) and graduate (1.57) students. 1.033 provides an introduction to continuum mechanics and material modeling of engineering materials based on first energy principles: deformation and strain; momentum balance, stress and stress states; elasticity and elasticity bounds; plasticity and yield design. The overarching theme is a unified mechanistic language using thermodynamics, which allows understanding, modeling and design of a large range of engineering materials. This course is offered both to undergraduate (1.033) and graduate (1.57) students.

Subjects

continuum mechanics | continuum mechanics | material modeling | material modeling | engineering materials | engineering materials | energy principles: deformation and strain | energy principles: deformation and strain | momentum balance | momentum balance | stress | stress | stress states | stress states | elasticity and elasticity bounds | elasticity and elasticity bounds | plasticity | plasticity | yield design | yield design | first energy principles | first energy principles | deformation | deformation | strain | strain | elasticity bounds | elasticity bounds | unified mechanistic language | unified mechanistic language | thermodynamics | thermodynamics | engineering structures | engineering structures | unified framework | unified framework | irreversible processes | irreversible processes | structural engineering | structural engineering | soil mechanics | soil mechanics | mechanical engineering | mechanical engineering | materials science | materials science | solids | solids | durability mechanics | durability 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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2.61 Internal Combustion Engines (MIT) 2.61 Internal Combustion Engines (MIT)

Description

This course studies the fundamentals of how the design and operation of internal combustion engines affect their performance, operation, fuel requirements, and environmental impact. Topics include fluid flow, thermodynamics, combustion, heat transfer and friction phenomena, and fuel properties, with reference to engine power, efficiency, and emissions. Students examine the design features and operating characteristics of different types of internal combustion engines: spark-ignition, diesel, stratified-charge, and mixed-cycle engines. Class includes lab project in the Engine Laboratory. This course studies the fundamentals of how the design and operation of internal combustion engines affect their performance, operation, fuel requirements, and environmental impact. Topics include fluid flow, thermodynamics, combustion, heat transfer and friction phenomena, and fuel properties, with reference to engine power, efficiency, and emissions. Students examine the design features and operating characteristics of different types of internal combustion engines: spark-ignition, diesel, stratified-charge, and mixed-cycle engines. Class includes lab project in the Engine Laboratory.

Subjects

internal combustion engines | internal combustion engines | engine operation | engine operation | engine fuel requirements | engine fuel requirements | environmental impact | environmental impact | fluid flow | thermodynamics | combustion | heat transfer and friction phenomena | fluid flow | thermodynamics | combustion | heat transfer and friction phenomena | fuel properties | fuel properties | power | power | efficiency | efficiency | emissions | emissions | spark-ignition | spark-ignition | diesel | diesel | stratified-charge | stratified-charge | mixed-cycle engine | mixed-cycle engine | full lecture notes | full lecture notes

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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16.50 Introduction to Propulsion Systems (MIT) 16.50 Introduction to Propulsion Systems (MIT)

Description

This course presents aerospace propulsive devices as systems, with functional requirements and engineering and environmental limitations along with requirements and limitations that constrain design choices. Both air-breathing and rocket engines are covered, at a level which enables rational integration of the propulsive system into an overall vehicle design. Mission analysis, fundamental performance relations, and exemplary design solutions are presented. This course presents aerospace propulsive devices as systems, with functional requirements and engineering and environmental limitations along with requirements and limitations that constrain design choices. Both air-breathing and rocket engines are covered, at a level which enables rational integration of the propulsive system into an overall vehicle design. Mission analysis, fundamental performance relations, and exemplary design solutions are presented.

Subjects

gas turbines | gas turbines | propulsion | propulsion | rockets | rockets | rocket engines | rocket engines | air-breathing engines | air-breathing engines | turbomachines | turbomachines | aeroengines | aeroengines | turbines | turbines | aircraft engines | aircraft engines | turbofans | turbofans | thrusters | thrusters | combustion turbine | combustion turbine | turbojets | turbojets | turboprops | turboprops | chemical propulsion | chemical propulsion | electrical propulsion | electrical propulsion | rocket nozzles | rocket nozzles

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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20.109 Laboratory Fundamentals in Biological Engineering (MIT) 20.109 Laboratory Fundamentals in Biological Engineering (MIT)

Description

Includes audio/video content: AV special element video. This course introduces experimental biochemical and molecular techniques from a quantitative engineering perspective. Experimental design, data analysis, and scientific communication form the underpinnings of this subject. Three discovery-based experimental modules focus on RNA engineering, protein engineering, and cell-biomaterial engineering.This OCW site is based on the source OpenWetWare class Wiki, 20.109(S10): Laboratory Fundamentals of Biological Engineering. Includes audio/video content: AV special element video. This course introduces experimental biochemical and molecular techniques from a quantitative engineering perspective. Experimental design, data analysis, and scientific communication form the underpinnings of this subject. Three discovery-based experimental modules focus on RNA engineering, protein engineering, and cell-biomaterial engineering.This OCW site is based on the source OpenWetWare class Wiki, 20.109(S10): Laboratory Fundamentals of Biological Engineering.

Subjects

biology | biology | bioengineering | bioengineering | biotechnology | biotechnology | RNA engineering | RNA engineering | protein engineering | protein engineering | biomaterial engineering | biomaterial engineering | assay | assay | lab protocol | lab protocol

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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