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16.810 Engineering Design and Rapid Prototyping (MIT) 16.810 Engineering Design and Rapid Prototyping (MIT)

Description

Includes audio/video content: AV special element video. This course provides students with an opportunity to conceive, design and implement a product, using rapid prototyping methods and computer-aid tools. The first of two phases challenges each student team to meet a set of design requirements and constraints for a structural component. A course of iteration, fabrication, and validation completes this manual design cycle. During the second phase, each team conducts design optimization using structural analysis software, with their phase one prototype as a baseline. Acknowledgements This course is made possible thanks to a grant by the alumni sponsored Teaching and Education Enhancement Program (Class of '51 Fund for Excellence in Education, Class of '55 Fund for Excellence in Teaching, Includes audio/video content: AV special element video. This course provides students with an opportunity to conceive, design and implement a product, using rapid prototyping methods and computer-aid tools. The first of two phases challenges each student team to meet a set of design requirements and constraints for a structural component. A course of iteration, fabrication, and validation completes this manual design cycle. During the second phase, each team conducts design optimization using structural analysis software, with their phase one prototype as a baseline. Acknowledgements This course is made possible thanks to a grant by the alumni sponsored Teaching and Education Enhancement Program (Class of '51 Fund for Excellence in Education, Class of '55 Fund for Excellence in Teaching,

Subjects

engineering design | engineering design | rapid prototyping | rapid prototyping | manufacturing | manufacturing | testing | testing | system components | system components | complex structural parts | complex structural parts | hand sketching | hand sketching | CAD | CAD | CAD modeling | CAD modeling | CAE | CAE | CAE analysis | CAE analysis | CAM programming | CAM programming | CNC | CNC | CNC machining | CNC machining | computer aided design | computer aided design | computer aided | computer aided | structual testing | structual testing | multiobjective design | multiobjective design | optimization | optimization | computational methods | computational methods | tools | tools | design process | design process | design competition | design competition | active learning | active learning | hands-on | hands-on | human creativity | human creativity | holistic | holistic | solidworks | solidworks | finite element | finite element | FEM | FEM | FEM analysis | FEM analysis | COSMOS | COSMOS | omax | omax | presentation | presentation | CDIO | CDIO

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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16.810 Engineering Design and Rapid Prototyping (MIT) 16.810 Engineering Design and Rapid Prototyping (MIT)

Description

Includes audio/video content: AV special element video. This course provides students with an opportunity to conceive, design and implement a product, using rapid prototyping methods and computer-aid tools. The first of two phases challenges each student team to meet a set of design requirements and constraints for a structural component. A course of iteration, fabrication, and validation completes this manual design cycle. During the second phase, each team conducts design optimization using structural analysis software, with their phase one prototype as a baseline. Acknowledgements This course is made possible thanks to a grant by the alumni sponsored Teaching and Education Enhancement Program (Class of '51 Fund for Excellence in Education, Class of '55 Fund for Excellence in Teachin Includes audio/video content: AV special element video. This course provides students with an opportunity to conceive, design and implement a product, using rapid prototyping methods and computer-aid tools. The first of two phases challenges each student team to meet a set of design requirements and constraints for a structural component. A course of iteration, fabrication, and validation completes this manual design cycle. During the second phase, each team conducts design optimization using structural analysis software, with their phase one prototype as a baseline. Acknowledgements This course is made possible thanks to a grant by the alumni sponsored Teaching and Education Enhancement Program (Class of '51 Fund for Excellence in Education, Class of '55 Fund for Excellence in Teachin

Subjects

engineering design | engineering design | rapid prototyping | rapid prototyping | manufacturing | manufacturing | testing | testing | system components | system components | complex structural parts | complex structural parts | hand sketching | hand sketching | CAD | CAD | CAD modeling | CAD modeling | CAE | CAE | CAE analysis | CAE analysis | CAM programming | CAM programming | CNC | CNC | CNC machining | CNC machining | computer aided design | computer aided design | computer aided | computer aided | structual testing | structual testing | multiobjective design | multiobjective design | optimization | optimization | computational methods | computational methods | tools | tools | design process | design process | design competition | design competition | active learning | active learning | hands-on | hands-on | human creativity | human creativity | holistic | holistic | solidworks | solidworks | finite element | finite element | FEM | FEM | FEM analysis | FEM analysis | COSMOS | COSMOS | omax | omax | presentation | presentation | CDIO | CDIO | structural testing | structural testing

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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21L.423J Introduction to Anglo-American Folk Music (MIT) 21L.423J Introduction to Anglo-American Folk Music (MIT)

Description

This course examines the production, transmission, preservation and qualities of folk music in the British Isles and North America from the 18th century to the folk revival of the 1960s and the present. There is a special emphasis on balladry, fiddle styles, and African-American influences. The class sings ballads and folk songs from the Child and Lomax collections as well as other sources as we examine them from literary, historical, and musical points of view. Readings supply critical and background materials from a number of sources. Visitors and films bring additional perspectives. This course examines the production, transmission, preservation and qualities of folk music in the British Isles and North America from the 18th century to the folk revival of the 1960s and the present. There is a special emphasis on balladry, fiddle styles, and African-American influences. The class sings ballads and folk songs from the Child and Lomax collections as well as other sources as we examine them from literary, historical, and musical points of view. Readings supply critical and background materials from a number of sources. Visitors and films bring additional perspectives.

Subjects

21L.423 | 21L.423 | 21M.223 | 21M.223 | music production | music production | music transmission | music transmission | music preservation | music preservation | folk music | folk music | British Isles | British Isles | North America | North America | seventeenth century | seventeenth century | eighteenth century | eighteenth century | 17th century | 17th century | 18th century | 18th century | folk revival | folk revival | balladry | balladry | fiddle styles | fiddle styles | Lomax | Lomax | ballad | ballad | anglo-scottish ballads | anglo-scottish ballads | fiddle | fiddle | the great confluence | the great confluence | appalachia | appalachia

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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16.810 Engineering Design and Rapid Prototyping (MIT) 16.810 Engineering Design and Rapid Prototyping (MIT)

Description

This course provides students with an opportunity to conceive, design and implement a product, using rapid protyping methods and computer-aid tools. The first of two phases challenges each student team to meet a set of design requirements and constraints for a structural component. A course of iteration, fabrication, and validation completes this manual design cycle. During the second phase, each team conducts design optimization using structural analysis software, with their phase one prototype as a baseline.AcknowledgmentsThis course is made possible thanks to a grant by the alumni sponsored Teaching and Education Enhancement Program (Class of '51 Fund for Excellence in Education, Class of '55 Fund for Excellence in Teaching, Class of '72 Fund for Educationa This course provides students with an opportunity to conceive, design and implement a product, using rapid protyping methods and computer-aid tools. The first of two phases challenges each student team to meet a set of design requirements and constraints for a structural component. A course of iteration, fabrication, and validation completes this manual design cycle. During the second phase, each team conducts design optimization using structural analysis software, with their phase one prototype as a baseline.AcknowledgmentsThis course is made possible thanks to a grant by the alumni sponsored Teaching and Education Enhancement Program (Class of '51 Fund for Excellence in Education, Class of '55 Fund for Excellence in Teaching, Class of '72 Fund for Educationa

Subjects

engineering design | engineering design | rapid prototyping | rapid prototyping | manufacturing | manufacturing | testing | testing | system components | system components | complex structural parts | complex structural parts | hand sketching | hand sketching | CAD | CAD | CAD modeling | CAD modeling | CAE | CAE | CAE analysis | CAE analysis | CAM programming | CAM programming | CNC | CNC | CNC machining | CNC machining | computer aided design | computer aided design | computer aided | computer aided | structual testing | structual testing | multiobjective design | multiobjective design | optimization | optimization | computational methods | computational methods | tools | tools | design process | design process | design competition | design competition | active learning | active learning | hands-on | hands-on | human creativity | human creativity | holistic | holistic | solidworks | solidworks | finite element | finite element | FEM | FEM | FEM analysis | FEM analysis | COSMOS | COSMOS | omax | omax | presentation | presentation | CDIO | CDIO

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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16.682 Prototyping Avionics (MIT) 16.682 Prototyping Avionics (MIT)

Description

In the past building prototypes of electronic components for new projects/products was limited to using protoboards and wirewrap. Manufacturing a printed-circuit-board was limited to final production, where mistakes in the implementation meant physically cutting traces on the board and adding wire jumpers - the final products would have these fixes on them! Today that is no longer the case, while you will still cut traces and use jumpers when debugging a board, manufacturing a new final version without the errors is a simple and relatively inexpensive task. For that matter, manufacturing a prototype printed circuit board which you know is likely to have errors but which will get the design substantially closer to the final product than a protoboard setup is not only possible, but desirable In the past building prototypes of electronic components for new projects/products was limited to using protoboards and wirewrap. Manufacturing a printed-circuit-board was limited to final production, where mistakes in the implementation meant physically cutting traces on the board and adding wire jumpers - the final products would have these fixes on them! Today that is no longer the case, while you will still cut traces and use jumpers when debugging a board, manufacturing a new final version without the errors is a simple and relatively inexpensive task. For that matter, manufacturing a prototype printed circuit board which you know is likely to have errors but which will get the design substantially closer to the final product than a protoboard setup is not only possible, but desirable

Subjects

engineering design | engineering design | rapid prototyping | rapid prototyping | manufacturing | manufacturing | testing | testing | system components | system components | complex structural parts | complex structural parts | hand sketching | hand sketching | CAD | CAD | CAD modeling | CAD modeling | CAE | CAE | CAE analysis | CAE analysis | CAM programming | CAM programming | CNC | CNC | CNC machining | CNC machining | computer aided design | computer aided design | computer aided | computer aided | structual testing | structual testing | multiobjective design | multiobjective design | optimization | optimization | computational methods | computational methods | tools | tools | design process | design process | design competition | design competition | active learning | active learning | hands-on | hands-on | human creativity | human creativity | holistic | holistic | solidworks | solidworks | finite element | finite element | FEM | FEM | FEM analysis | FEM analysis | COSMOS | COSMOS | omax | omax | presentation | presentation | CDIO | CDIO

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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E0000P0140

Description

Bottle of Dectomax

Subjects

svmsvet | dectomax | doramectin | injectable | wormer | ectoparasite | control | antiparasiticide | lice | tick | mange | mites | farm | cow | sheep

License

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

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Nottingham Vet School | FlickR

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E0000P0140

Description

Bottle of Dectomax

Subjects

svmsvet | dectomax | doramectin | injectable | wormer | ectoparasite | control | antiparasiticide | lice | tick | mange | mites | farm | cow | sheep

License

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

Site sourced from

Nottingham Vet School | FlickR

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16.810 Engineering Design and Rapid Prototyping (MIT)

Description

This course provides students with an opportunity to conceive, design and implement a product, using rapid protyping methods and computer-aid tools. The first of two phases challenges each student team to meet a set of design requirements and constraints for a structural component. A course of iteration, fabrication, and validation completes this manual design cycle. During the second phase, each team conducts design optimization using structural analysis software, with their phase one prototype as a baseline.AcknowledgmentsThis course is made possible thanks to a grant by the alumni sponsored Teaching and Education Enhancement Program (Class of '51 Fund for Excellence in Education, Class of '55 Fund for Excellence in Teaching, Class of '72 Fund for Educationa

Subjects

engineering design | rapid prototyping | manufacturing | testing | system components | complex structural parts | hand sketching | CAD | CAD modeling | CAE | CAE analysis | CAM programming | CNC | CNC machining | computer aided design | computer aided | structual testing | multiobjective design | optimization | computational methods | tools | design process | design competition | active learning | hands-on | human creativity | holistic | solidworks | finite element | FEM | FEM analysis | COSMOS | omax | presentation | CDIO

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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21L.423J Introduction to Anglo-American Folk Music (MIT)

Description

This course examines the production, transmission, preservation and qualities of folk music in the British Isles and North America from the 18th century to the folk revival of the 1960s and the present. There is a special emphasis on balladry, fiddle styles, and African-American influences. The class sings ballads and folk songs from the Child and Lomax collections as well as other sources as we examine them from literary, historical, and musical points of view. Readings supply critical and background materials from a number of sources. Visitors and films bring additional perspectives.

Subjects

21L.423 | 21M.223 | music production | music transmission | music preservation | folk music | British Isles | North America | seventeenth century | eighteenth century | 17th century | 18th century | folk revival | balladry | fiddle styles | Lomax | ballad | anglo-scottish ballads | fiddle | the great confluence | appalachia

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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https://ocw.mit.edu/rss/all/mit-allcourses.xml

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16.682 Prototyping Avionics (MIT)

Description

In the past building prototypes of electronic components for new projects/products was limited to using protoboards and wirewrap. Manufacturing a printed-circuit-board was limited to final production, where mistakes in the implementation meant physically cutting traces on the board and adding wire jumpers - the final products would have these fixes on them! Today that is no longer the case, while you will still cut traces and use jumpers when debugging a board, manufacturing a new final version without the errors is a simple and relatively inexpensive task. For that matter, manufacturing a prototype printed circuit board which you know is likely to have errors but which will get the design substantially closer to the final product than a protoboard setup is not only possible, but desirable

Subjects

engineering design | rapid prototyping | manufacturing | testing | system components | complex structural parts | hand sketching | CAD | CAD modeling | CAE | CAE analysis | CAM programming | CNC | CNC machining | computer aided design | computer aided | structual testing | multiobjective design | optimization | computational methods | tools | design process | design competition | active learning | hands-on | human creativity | holistic | solidworks | finite element | FEM | FEM analysis | COSMOS | omax | presentation | CDIO

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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16.810 Engineering Design and Rapid Prototyping (MIT)

Description

This course provides students with an opportunity to conceive, design and implement a product, using rapid prototyping methods and computer-aid tools. The first of two phases challenges each student team to meet a set of design requirements and constraints for a structural component. A course of iteration, fabrication, and validation completes this manual design cycle. During the second phase, each team conducts design optimization using structural analysis software, with their phase one prototype as a baseline. Acknowledgements This course is made possible thanks to a grant by the alumni sponsored Teaching and Education Enhancement Program (Class of '51 Fund for Excellence in Education, Class of '55 Fund for Excellence in Teaching, Class of '72 Fund for Educational Innovation). The ins

Subjects

engineering design | rapid prototyping | manufacturing | testing | system components | complex structural parts | hand sketching | CAD | CAD modeling | CAE | CAE analysis | CAM programming | CNC | CNC machining | computer aided design | computer aided | structual testing | multiobjective design | optimization | computational methods | tools | design process | design competition | active learning | hands-on | human creativity | holistic | solidworks | finite element | FEM | FEM analysis | COSMOS | omax | presentation | CDIO

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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16.810 Engineering Design and Rapid Prototyping (MIT)

Description

This course provides students with an opportunity to conceive, design and implement a product, using rapid prototyping methods and computer-aid tools. The first of two phases challenges each student team to meet a set of design requirements and constraints for a structural component. A course of iteration, fabrication, and validation completes this manual design cycle. During the second phase, each team conducts design optimization using structural analysis software, with their phase one prototype as a baseline. Acknowledgements This course is made possible thanks to a grant by the alumni sponsored Teaching and Education Enhancement Program (Class of '51 Fund for Excellence in Education, Class of '55 Fund for Excellence in Teaching, Class of '72 Fund for Educational Innovation). The in

Subjects

engineering design | rapid prototyping | manufacturing | testing | system components | complex structural parts | hand sketching | CAD | CAD modeling | CAE | CAE analysis | CAM programming | CNC | CNC machining | computer aided design | computer aided | structual testing | multiobjective design | optimization | computational methods | tools | design process | design competition | active learning | hands-on | human creativity | holistic | solidworks | finite element | FEM | FEM analysis | COSMOS | omax | presentation | CDIO | structural testing

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

Site sourced from

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