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21W.780 Communicating in Technical Organizations (MIT) 21W.780 Communicating in Technical Organizations (MIT)

Description

This course focuses on an exploration of the role that communication plays in the work of the contemporary engineering and science professional. Emphasis is placed on analyzing how composition and publication contribute to work management and knowledge production, as well as the "how-to" aspects of writing specific kinds of documents in a clear style. Topics include: communication as organizational process, electronic modes such as e-mail and the Internet, the informational and social roles of specific document forms, writing as collaboration, the writing process, the elements of style, methods of oral presentation, and communication ethics. Case studies used as the basis for class discussion and some writing assignments. Several short documents, a longer report or article, and a This course focuses on an exploration of the role that communication plays in the work of the contemporary engineering and science professional. Emphasis is placed on analyzing how composition and publication contribute to work management and knowledge production, as well as the "how-to" aspects of writing specific kinds of documents in a clear style. Topics include: communication as organizational process, electronic modes such as e-mail and the Internet, the informational and social roles of specific document forms, writing as collaboration, the writing process, the elements of style, methods of oral presentation, and communication ethics. Case studies used as the basis for class discussion and some writing assignments. Several short documents, a longer report or article, and a

Subjects

Communicating; Technical;Organizations | Communicating; Technical;Organizations | document | document | abstracts | abstracts | executive | executive | summaries | summaries | memos | memos | proposals | proposals | progress | progress | reports | reports | PowerPoint | PowerPoint | Web | Web | poster | poster | writing | writing | Communicating | Communicating | Technical | Technical | Organizations | Organizations | engineering professionals | engineering professionals | science professionals | science professionals | composition | composition | publication | publication | work management | work management | knowledge production | knowledge production | technical writing | technical writing | organizational process | organizational process | electronic communication | electronic communication | electronic mail | electronic mail | e-mail | e-mail | internet | internet | intranet | intranet | informational roles | informational roles | social roles | social roles | collaboration | collaboration | writing process | writing process | elements of style | elements of style | oral presentation | oral presentation | communication ethics | communication ethics | communicating technical information | communicating technical information | web-based media | web-based media | video | video | teleconferencing | teleconferencing | document types | document types | executive summaries | executive summaries | technical memos | technical memos | progress reports | progress reports | final reports | final reports | oral reports | oral reports

License

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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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21M.603 Principles of Design (MIT) 21M.603 Principles of Design (MIT)

Description

This course deals with advanced design theories and textual analysis. Emphasis is placed on script analysis in general, as well as the investigation of design principles from a designer's perspective. Students also refine technical skills in rendering and presentation, historical research, and analysis. Class sessions include interaction with student/faculty directors and other staff designers. The goal of this course is for students to approach text with a fresh vision and translate that vision into design for performance. This course deals with advanced design theories and textual analysis. Emphasis is placed on script analysis in general, as well as the investigation of design principles from a designer's perspective. Students also refine technical skills in rendering and presentation, historical research, and analysis. Class sessions include interaction with student/faculty directors and other staff designers. The goal of this course is for students to approach text with a fresh vision and translate that vision into design for performance.

Subjects

Design theories; textual analysis; script analysis; technical skills; rendering; presentation; historical research; performance; Lysistrata; Aristophanes. | Design theories; textual analysis; script analysis; technical skills; rendering; presentation; historical research; performance; Lysistrata; Aristophanes. | Design theories | Design theories | textual analysis | textual analysis | script analysis | script analysis | technical skills | technical skills | rendering | rendering | presentation | presentation | historical research | historical research | performance | performance | Lysistrata | Lysistrata | Aristophanes | Aristophanes

License

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21M.873 Theater Arts Topics (MIT) 21M.873 Theater Arts Topics (MIT)

Description

Directed practice in acting, directing, or design on a sustained theater piece, either one-act or full length, from pre-rehearsal preparation to workshop production. Directed practice in acting, directing, or design on a sustained theater piece, either one-act or full length, from pre-rehearsal preparation to workshop production.

Subjects

Acting; directing; design; theater; one-act; full length; pre-rehearsal; workshop; production; theater arts; directed practice; stagecraft; Dramashop; rehearsal; Anne Washburn; play; The Internationalist; Sonenberg; auditions; technical. | Acting; directing; design; theater; one-act; full length; pre-rehearsal; workshop; production; theater arts; directed practice; stagecraft; Dramashop; rehearsal; Anne Washburn; play; The Internationalist; Sonenberg; auditions; technical. | Acting; | Acting; | Acting | Acting | directing | directing | design | design | theater | theater | one-act | one-act | full length | full length | pre-rehearsal | pre-rehearsal | workshop | workshop | production | production | theater arts | theater arts | directed practice | directed practice | stagecraft | stagecraft | Dramashop | Dramashop | rehearsal | rehearsal | Anne Washburn | Anne Washburn | play | play | The Internationalist | The Internationalist | Sonenberg | Sonenberg | auditions | auditions | technical | technical

License

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21W.732-5 Introduction to Technical Communication: Explorations in Scientific and Technical Writing (MIT) 21W.732-5 Introduction to Technical Communication: Explorations in Scientific and Technical Writing (MIT)

Description

This course is designed to help you develop skills that will enable you to produce clear and effective scientific and technical documents. We will focus on basic principles of good writing-which scientific and technical writing shares with other forms of writing-and on types of documents common in scientific and technical fields and organizations. While the emphasis will be on writing, oral communication of scientific and technical information will form an important component of the course, as well. This course is designed to help you develop skills that will enable you to produce clear and effective scientific and technical documents. We will focus on basic principles of good writing-which scientific and technical writing shares with other forms of writing-and on types of documents common in scientific and technical fields and organizations. While the emphasis will be on writing, oral communication of scientific and technical information will form an important component of the course, as well.

Subjects

scienticifc writing | scienticifc writing | scientific documents | scientific documents | technical documents | technical documents | argument | argument | review | review | critique | critique | graphics | graphics | email | email | webpage writing | webpage writing | webpage design | webpage design | literature reivew | literature reivew | narrative essay | narrative essay | technical description | technical description | design proposal | design proposal

License

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21W.783 Science and Engineering Writing for Phase II (MIT) 21W.783 Science and Engineering Writing for Phase II (MIT)

Description

21W.783 is a series of seminars focusing on common writing problems faced by professional engineers and scientists. Participants will tune up their writing skills and prepare a pair of technical documents under the guidance of the instructor. The writing assignments focus on a single topic of the student's choosing, preferably one for which the necessary research has been done, or is in the process of being done. In addition to the writing component, students will deliver an oral presentation based on the written work. 21W.783 is a series of seminars focusing on common writing problems faced by professional engineers and scientists. Participants will tune up their writing skills and prepare a pair of technical documents under the guidance of the instructor. The writing assignments focus on a single topic of the student's choosing, preferably one for which the necessary research has been done, or is in the process of being done. In addition to the writing component, students will deliver an oral presentation based on the written work.

Subjects

technical writing | technical writing | document structure | document structure | graphics | graphics | grammar | grammar | style | style | technical documents | technical documents | science writing | science writing

License

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21W.780 Communicating in Technical Organizations (MIT)

Description

This course focuses on an exploration of the role that communication plays in the work of the contemporary engineering and science professional. Emphasis is placed on analyzing how composition and publication contribute to work management and knowledge production, as well as the "how-to" aspects of writing specific kinds of documents in a clear style. Topics include: communication as organizational process, electronic modes such as e-mail and the Internet, the informational and social roles of specific document forms, writing as collaboration, the writing process, the elements of style, methods of oral presentation, and communication ethics. Case studies used as the basis for class discussion and some writing assignments. Several short documents, a longer report or article, and a short o

Subjects

Communicating; Technical;Organizations | document | abstracts | executive | summaries | memos | proposals | progress | reports | PowerPoint | Web | poster | writing | Communicating | Technical | Organizations | engineering professionals | science professionals | composition | publication | work management | knowledge production | technical writing | organizational process | electronic communication | electronic mail | e-mail | internet | intranet | informational roles | social roles | collaboration | writing process | elements of style | oral presentation | communication ethics | communicating technical information | web-based media | video | teleconferencing | document types | executive summaries | technical memos | progress reports | final reports | oral reports

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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Flexible learning for technical theatre: Trends in the live arts

Description

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Subjects

Live arts | Flexible learning for technical theatre | ILRforSkills | cultural sector | creative sector | timeline | culture | roman theatre | A/503/0259 | Greek theatre | amphitheatre | trends | stage | history | lighting | tech | design | sound | technical theatre | model answer | culture and history of technical and production developments in the live arts | Principles of the Creative and Cultural Sector

License

Attribution-ShareAlike 4.0 International Attribution-ShareAlike 4.0 International http://creativecommons.org/licenses/by-sa/4.0/ http://creativecommons.org/licenses/by-sa/4.0/

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Flexible learning for technical theatre: Technology used in the industry

Description

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Subjects

image projection | automation | flying equipment | audio and visual | sound | digital technology | how technology has affected the creative and cultural industry | creative and cultural industry | light | Dawn Walton | Igor | the young vic | technical director | Phil Bentley | unicorn theatre | eclipse theatre | smell effects | technologies | Flexible learning for technical theatre | Live arts | technology and processes used in the live arts | ILRforSkills | M/503/0260 | creative sector | cultural sector | technical theatre | tech | internet | holograms | design | stage | set construction | costume | Award in Principles of the Creative and Cultural Sector | materials | technology

License

Attribution-ShareAlike 4.0 International Attribution-ShareAlike 4.0 International http://creativecommons.org/licenses/by-sa/4.0/ http://creativecommons.org/licenses/by-sa/4.0/

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21W.780 Communicating in Technical Organizations (MIT)

Description

This course focuses on an exploration of the role that communication plays in the work of the contemporary engineering and science professional. Emphasis is placed on analyzing how composition and publication contribute to work management and knowledge production, as well as the "how-to" aspects of writing specific kinds of documents in a clear style. Topics include: communication as organizational process, electronic modes such as e-mail and the Internet, the informational and social roles of specific document forms, writing as collaboration, the writing process, the elements of style, methods of oral presentation, and communication ethics. Case studies used as the basis for class discussion and some writing assignments. Several short documents, a longer report or article, and a

Subjects

Communicating; Technical;Organizations | document | abstracts | executive | summaries | memos | proposals | progress | reports | PowerPoint | Web | poster | writing | Communicating | Technical | Organizations | engineering professionals | science professionals | composition | publication | work management | knowledge production | technical writing | organizational process | electronic communication | electronic mail | e-mail | internet | intranet | informational roles | social roles | collaboration | writing process | elements of style | oral presentation | communication ethics | communicating technical information | web-based media | video | teleconferencing | document types | executive summaries | technical memos | progress reports | final reports | oral reports

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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HST.921 Information Technology in the Health Care System of the Future (MIT) HST.921 Information Technology in the Health Care System of the Future (MIT)

Description

This course will show how information technologies (IT) shape and redefine the health care marketplace. Students will learn how IT enhances medical care through: 1) improved economies of scale, 2) greater technical efficiencies in the delivery of care, 3) advanced tools for patient education and self-care, 4) network-integrated decision support tools for clinicians, and 5) opportunities for e-health delivery over the internet. Students will work in interdisciplinary teams to design an innovative solution to a current or future health care problem. Students' proposed solutions will draw upon understanding of tools and principles acquired and will be presented as an application design during the final days of the course. Adjunct Faculty Mirena Bagur Sherri Dorfman Paul Heinzelman Gary H This course will show how information technologies (IT) shape and redefine the health care marketplace. Students will learn how IT enhances medical care through: 1) improved economies of scale, 2) greater technical efficiencies in the delivery of care, 3) advanced tools for patient education and self-care, 4) network-integrated decision support tools for clinicians, and 5) opportunities for e-health delivery over the internet. Students will work in interdisciplinary teams to design an innovative solution to a current or future health care problem. Students' proposed solutions will draw upon understanding of tools and principles acquired and will be presented as an application design during the final days of the course. Adjunct Faculty Mirena Bagur Sherri Dorfman Paul Heinzelman Gary H

Subjects

information technology | information technology | health care system | health care system | economy of scale | economy of scale | technical efficiency | technical efficiency | patient education | patient education | self-care | self-care | network integration | network integration | decision support tool | decision support tool | internet | internet | web | web | disease managment | disease managment | health economics | health economics | clinical effectiveness | clinical effectiveness | trials design | trials design | software | software

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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1.133 Masters of Engineering Concepts of Engineering Practice (MIT) 1.133 Masters of Engineering Concepts of Engineering Practice (MIT)

Description

1.133 is a core requirement for the Master of Engineering (M. Eng.) program. It features lectures presented by a variety of industry and academic speakers. The course is designed to teach students about the roles of today's professional engineer and to expose them to team-building skills through lectures, team workshops, and seminars. Topics include: written and oral communications, job placement skills, trends in the engineering and construction industry, proposal preparation, project evaluation, project management, professional ethics, and negotiation. The course draws on relevent large scale projects to illustrate each component of the subject. Course lectures are integrated with a weekly seminar series and the MEng group project subjects which are mentioned herein.  1.133 is a core requirement for the Master of Engineering (M. Eng.) program. It features lectures presented by a variety of industry and academic speakers. The course is designed to teach students about the roles of today's professional engineer and to expose them to team-building skills through lectures, team workshops, and seminars. Topics include: written and oral communications, job placement skills, trends in the engineering and construction industry, proposal preparation, project evaluation, project management, professional ethics, and negotiation. The course draws on relevent large scale projects to illustrate each component of the subject. Course lectures are integrated with a weekly seminar series and the MEng group project subjects which are mentioned herein. 

Subjects

professional engineer | professional engineer | team-building skills | team-building skills | lectures | lectures | team workshops | team workshops | seminars | seminars | written communication | written communication | oral communication | oral communication | job placement skills | job placement skills | trends in the engineering | trends in the engineering | trends in construction industry | trends in construction industry | risk analysis | risk analysis | risk management | risk management | managing public information | managing public information | proposal preparation | proposal preparation | project evaluation | project evaluation | project management | project management | liability | liability | professional ethics | professional ethics | negotiation | negotiation | construction industry | construction industry | engineering | engineering | resume writing | resume writing | technical writing | technical writing | job placement interviews | job placement interviews | alternative dispute resolution | alternative dispute resolution

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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21G.225 Advanced Workshop in Writing for Science and Engineering: ESL (MIT) 21G.225 Advanced Workshop in Writing for Science and Engineering: ESL (MIT)

Description

This workshop is designed to help advanced students of ESL and bilingual students to write clearly, accurately and effectively in a professional or academic technical environment. In class, we will focus on analyzing examples of various forms of technical writing. In addition, while 21F.225/6 is not a grammar review, we will address many of the common problems of advanced non-native writers of technical English. Class members will occasionally be the authors of the work under review. They will also occasionally be responsible for leading group discussions and for short oral presentations. The course, then, is not a grammar class nor a thesis editing service though we will spend considerable time developing student's editorial skills. Constructive partic This workshop is designed to help advanced students of ESL and bilingual students to write clearly, accurately and effectively in a professional or academic technical environment. In class, we will focus on analyzing examples of various forms of technical writing. In addition, while 21F.225/6 is not a grammar review, we will address many of the common problems of advanced non-native writers of technical English. Class members will occasionally be the authors of the work under review. They will also occasionally be responsible for leading group discussions and for short oral presentations. The course, then, is not a grammar class nor a thesis editing service though we will spend considerable time developing student's editorial skills. Constructive partic

Subjects

ESL | ESL | bilingual | bilingual | professional writing | professional writing | academic writing | academic writing | technical writing | technical writing | 21F.225 | 21F.225 | 21F.226 | 21F.226

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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HST.921 Information Technology in the Health Care System of the Future (MIT) HST.921 Information Technology in the Health Care System of the Future (MIT)

Description

The healthcare system in the US has been in the midst of a rapid transition in response to changing trends and patterns of care. The growing emphasis on evidence-based medical practice, continuous quality improvement, clinical and cost-effectiveness, and risk management have led to a sea change in medical practice that has been stressful for clinicians, patients, and administrators. As care becomes more tightly managed, it becomes a challenge for clinicians, administrators, and patients to balance time, money, resources, and clinical outcomes. Can emerging technologies help solve these complex problems? How has the demise of the dot.com industry effected these trends and slowed the proliferation of potential solutions?This innovative, trans-faculty course will teach the student how informa The healthcare system in the US has been in the midst of a rapid transition in response to changing trends and patterns of care. The growing emphasis on evidence-based medical practice, continuous quality improvement, clinical and cost-effectiveness, and risk management have led to a sea change in medical practice that has been stressful for clinicians, patients, and administrators. As care becomes more tightly managed, it becomes a challenge for clinicians, administrators, and patients to balance time, money, resources, and clinical outcomes. Can emerging technologies help solve these complex problems? How has the demise of the dot.com industry effected these trends and slowed the proliferation of potential solutions?This innovative, trans-faculty course will teach the student how informa

Subjects

information technology | information technology | health care system | health care system | economy of scale | economy of scale | technical efficiency | technical efficiency | patient education | patient education | self-care | self-care | network integration | network integration | decision support tool | decision support tool | internet | internet | web | web | disease managment | disease managment | health economics | health economics | clinical effectiveness | clinical effectiveness | trials design | trials design | software | software

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

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2.96 Management in Engineering (MIT) 2.96 Management in Engineering (MIT)

Description

Introduction of engineering management. Financial principles, management of innovation, engineering project planning and control, human factors, career planning, patents, and technical strategy. Case study method of instruction emphasizes participation in class discussion. Juniors, seniors, or graduate students. Engineering School-Wide Elective subject. Introduction of engineering management. Financial principles, management of innovation, engineering project planning and control, human factors, career planning, patents, and technical strategy. Case study method of instruction emphasizes participation in class discussion. Juniors, seniors, or graduate students. Engineering School-Wide Elective subject.

Subjects

engineering management | engineering management | financial principles | financial principles | innovation management | innovation management | engineering project planning | engineering project planning | human factors | human factors | career planning | career planning | patents | patents | technical strategy | technical strategy

License

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4.131 Architectural Design, Level II: Material Essence: The Glass House (MIT) 4.131 Architectural Design, Level II: Material Essence: The Glass House (MIT)

Description

The theme that unites the Level II studios in the fall semester is a focus upon the 'making of architecture and built form' as a tectonic, technical and materially driven endeavor. It is a design investigation that is rooted in a larger culture of materiality and the associated phenomena, but a study of the language and production of built form as an integrated response to the conceptual proposition of the project. The studio will look to works of architecture where the material tectonic and its resultant technology or fabrication become instrumental to the realization of the ideas, in whatever form they may take. This becomes the 'art of technology' -- suggesting a level of innovation and creative manipulation as part of the design process to transform material into a composition of b The theme that unites the Level II studios in the fall semester is a focus upon the 'making of architecture and built form' as a tectonic, technical and materially driven endeavor. It is a design investigation that is rooted in a larger culture of materiality and the associated phenomena, but a study of the language and production of built form as an integrated response to the conceptual proposition of the project. The studio will look to works of architecture where the material tectonic and its resultant technology or fabrication become instrumental to the realization of the ideas, in whatever form they may take. This becomes the 'art of technology' -- suggesting a level of innovation and creative manipulation as part of the design process to transform material into a composition of b

Subjects

architecture | architecture | tectonics | tectonics | materials | materials | relationships | relationships | interventions | interventions | physics | physics | place and space | place and space | wellesley campus | wellesley campus | thomson island | thomson island | glass | glass | structures | structures | advanced design | advanced design | rapid prototyping | rapid prototyping | environmental control | environmental control | "art of technology" | "art of technology" | fabrication | fabrication | design from detailing | design from detailing | built form | built form | technical | technical | design investigation | design investigation | materiality | materiality | art of technology | art of technology | glasshouse | glasshouse

License

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4.297 Special Problems in Architecture Studies (MIT) 4.297 Special Problems in Architecture Studies (MIT)

Description

The course investigates e-Learning systems from a business, policy, technical and legal perspective. The issues presented will be tackled by discussion of the design and structure of the various example systems. The connection between information architectures and the physical workplace of the users will also be examined. The course will be comprised of readings, discussions, guest speakers and group design sessions. Laboratory sessions will be focused on implementation tools and opportunities to create one's own working prototypes. Students will learn to describe information architectures using the Unified Modeling Language (used to specify, design and structure web applications) and XML (to designate meaningful content). The course investigates e-Learning systems from a business, policy, technical and legal perspective. The issues presented will be tackled by discussion of the design and structure of the various example systems. The connection between information architectures and the physical workplace of the users will also be examined. The course will be comprised of readings, discussions, guest speakers and group design sessions. Laboratory sessions will be focused on implementation tools and opportunities to create one's own working prototypes. Students will learn to describe information architectures using the Unified Modeling Language (used to specify, design and structure web applications) and XML (to designate meaningful content).

Subjects

XML | XML | e-Learning | e-Learning | e-Learning systems | e-Learning systems | business | business | policy | policy | technical | technical | legal | legal | design | design | connection between information architectures and the physical workplace | connection between information architectures and the physical workplace | Unified Modeling Language | Unified Modeling Language

License

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14.01SC Principles of Microeconomics (MIT) 14.01SC Principles of Microeconomics (MIT)

Description

Includes audio/video content: AV lectures. 14.01 Principles of Microeconomics is an introductory undergraduate course that teaches the fundamentals of microeconomics. This course introduces microeconomic concepts and analysis, supply and demand analysis, theories of the firm and individual behavior, competition and monopoly, and welfare economics. Students will also be introduced to the use of microeconomic applications to address problems in current economic policy throughout the semester. This course is a core subject in MIT's undergraduate Energy Studies Minor. This Institute-wide program complements the deep expertise obtained in any major with a broad understanding of the interlinked realms of science, technology, and social sciences as they relate to energy and associated environmen Includes audio/video content: AV lectures. 14.01 Principles of Microeconomics is an introductory undergraduate course that teaches the fundamentals of microeconomics. This course introduces microeconomic concepts and analysis, supply and demand analysis, theories of the firm and individual behavior, competition and monopoly, and welfare economics. Students will also be introduced to the use of microeconomic applications to address problems in current economic policy throughout the semester. This course is a core subject in MIT's undergraduate Energy Studies Minor. This Institute-wide program complements the deep expertise obtained in any major with a broad understanding of the interlinked realms of science, technology, and social sciences as they relate to energy and associated environmen

Subjects

Microeconomics | Microeconomics | prices | prices | normative economics | normative economics | positive economics | positive economics | microeconomic applications | microeconomic applications | supply | supply | demand | demand | equilibrium | equilibrium | demand shift | demand shift | supply shift | supply shift | government interference | government interference | elasticity | elasticity | revenue | revenue | empirical economics | empirical economics | consumer theory | consumer theory | preference assumptions | preference assumptions | indifference curves | indifference curves | utility functions | utility functions | marginal utility | marginal utility | budget constraints | budget constraints | marginal rate of transformation | marginal rate of transformation | opportunity cost | opportunity cost | constrained utility maximization | constrained utility maximization | corner solutions | corner solutions | Engel curves | Engel curves | income effect | income effect | substitution effect | substitution effect | Giffin good | Giffin good | labor economics | labor economics | child labor | child labor | producer theory | producer theory | variable inputs | variable inputs | fixed inputs | fixed inputs | firm production functions | firm production functions | marginal rate of technical substitution | marginal rate of technical substitution | returns to scale | returns to scale | productivity | productivity | perfect competition | perfect competition | search theory | search theory | residual demand | residual demand | shutdown decisions | shutdown decisions | market equilibrium | market equilibrium | agency problem | agency problem | welfare economics | welfare economics | consumer surplus | consumer surplus | producer surplus | producer surplus | dead weight loss | dead weight loss | monopoly | monopoly | oligopoly | oligopoly | market power | market power | price discrimination | price discrimination | price regulation | price regulation | antitrust policy | antitrust policy | mergers | mergers | cartel | cartel | game theory | game theory | Nash equilibrium | Nash equilibrium | Cournot model | Cournot model | duopoly | duopoly | non-cooperative competition | non-cooperative competition | Bertrand competition | Bertrand competition | factor markets | factor markets | international trade | international trade | uncertainty | uncertainty | capital markets | capital markets | intertemporal choice | intertemporal choice | real interest rate | real interest rate | compounding | compounding | inflation | inflation | investment | investment | discount rate | discount rate | net present value | net present value | income distribution | income distribution | social welfare function | social welfare function | Utilitarianism | Utilitarianism | Raulsian criteria | Raulsian criteria | Nozickian | Nozickian | commodity egalitarianism | commodity egalitarianism | isowelfare curves | isowelfare curves | social insurance | social insurance | social security | social security | moral hazard | moral hazard | taxation | taxation | EITC | EITC | healthcare | healthcare | PPACA | PPACA

License

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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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STS.069 Technology in a Dangerous World (MIT) STS.069 Technology in a Dangerous World (MIT)

Description

Includes audio/video content: AV special element video. Aim is to analyze important current events for what they reveal about the nature and working of our technological world. Starting point is connection between technology and terrorism. Subject also explores how a human-built world can foster insecurity and danger, and how human beings respond. Many invited guests help develop a strong interdisciplinary approach (science, engineering, social science, humanities). Topics include technological risk and remediation, sociotechnical systems, imagination of disaster, technology and identity, technology and religion, technology and education, and technology and trust. Written and oral assignments and a final project required. Service-learning proposals and web-based presentations, in addition Includes audio/video content: AV special element video. Aim is to analyze important current events for what they reveal about the nature and working of our technological world. Starting point is connection between technology and terrorism. Subject also explores how a human-built world can foster insecurity and danger, and how human beings respond. Many invited guests help develop a strong interdisciplinary approach (science, engineering, social science, humanities). Topics include technological risk and remediation, sociotechnical systems, imagination of disaster, technology and identity, technology and religion, technology and education, and technology and trust. Written and oral assignments and a final project required. Service-learning proposals and web-based presentations, in addition

Subjects

current events | current events | technology | technology | terrorism | terrorism | danger | danger | technological risk | technological risk | remediation | remediation | sociotechnical systems | sociotechnical systems | imagination of disaster | imagination of disaster | identity | identity | religion | religion | education | education

License

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1.364 Advanced Geotechnical Engineering (MIT) 1.364 Advanced Geotechnical Engineering (MIT)

Description

1.364 examines site characterization and geotechnical aspects of the design and construction of foundation systems. Topics include: site investigation (with emphasis on in situ testing), shallow (footings and raftings) and deep (piles and caissons) foundations, excavation support systems, groundwater control, slope stability, soil improvement (compaction, soil reinforcement, etc.), and construction monitoring. This course is a core requirement for the Geotechnical Master of Engineering program at MIT. 1.364 examines site characterization and geotechnical aspects of the design and construction of foundation systems. Topics include: site investigation (with emphasis on in situ testing), shallow (footings and raftings) and deep (piles and caissons) foundations, excavation support systems, groundwater control, slope stability, soil improvement (compaction, soil reinforcement, etc.), and construction monitoring. This course is a core requirement for the Geotechnical Master of Engineering program at MIT.

Subjects

geotechnical engineering | geotechnical engineering | soil | soil | soil mechanics | soil mechanics | foundations | foundations | earth retaining structures | earth retaining structures | site investigation | site investigation | ultimate limit | ultimate limit | serviceability limit | serviceability limit | soil improvement | soil improvement | gravity walls | gravity walls | composite construction | composite construction | reinforced earth | reinforced earth | structural support | structural support | excavations | excavations | bracing | bracing | tieback anchors | tieback anchors | tiebacks | tiebacks | safety factors | safety factors | boreholes | boreholes | soil sampling | soil sampling | stratigraphy | stratigraphy | SPT | SPT | FV | FV | PCPT | PCPT | spread foundation design | spread foundation design | in situ tests | in situ tests | bearing capacity | bearing capacity | strength parameters | strength parameters | allowable settlements | allowable settlements | sand | sand | clay | clay | soil-structure interaction | soil-structure interaction | pile types | pile types | pile selection | pile selection | pile behavior | pile behavior | pile capacity | pile capacity | pile driving | pile driving | pile load tests | pile load tests | slope stability | slope stability | cantilevers | cantilevers | propper walls | propper walls | braced excavations | braced excavations | reinforced soil | reinforced soil | soil nailing | soil nailing | geosynthetic reinforcement | geosynthetic reinforcement

License

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2.96 Management in Engineering (MIT) 2.96 Management in Engineering (MIT)

Description

This course gives an overview of engineering management and covers topics such as financial principles, management of innovation, technology strategy, and best management practices. The focus of the course is the development of individual skills and team work. This is carried out through an exposure to management tools. This course gives an overview of engineering management and covers topics such as financial principles, management of innovation, technology strategy, and best management practices. The focus of the course is the development of individual skills and team work. This is carried out through an exposure to management tools.

Subjects

engineering management | engineering management | financial principles | financial principles | innovation in management | innovation in management | technology strategy | technology strategy | management practices | management practices | project planning | project planning | technical strategy | technical strategy

License

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2.THA Undergraduate Thesis for Course 2-A (MIT) 2.THA Undergraduate Thesis for Course 2-A (MIT)

Description

This course is taken by mechanical engineering majors during their senior year to prepare a detailed thesis proposal under the guidance of staff from the Writing Program. The thesis proposal must bear the endorsement of the thesis supervisor and indicate the number of units planned. This course is offered during the Independent Activities Period (IAP), which is a special 4-week term at MIT that runs from the first week of January until the end of the month. This course is taken by mechanical engineering majors during their senior year to prepare a detailed thesis proposal under the guidance of staff from the Writing Program. The thesis proposal must bear the endorsement of the thesis supervisor and indicate the number of units planned. This course is offered during the Independent Activities Period (IAP), which is a special 4-week term at MIT that runs from the first week of January until the end of the month.

Subjects

thesis | thesis | writing | writing | mechanical engineering | mechanical engineering | technical writing | technical writing | scientific writing | scientific writing | thesis proposal | thesis proposal

License

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3.003 Principles of Engineering Practice (MIT) 3.003 Principles of Engineering Practice (MIT)

Description

This class introduces students to the interdisciplinary nature of 21st-century engineering projects with three threads of learning: a technical toolkit, a social science toolkit, and a methodology for problem-based learning. Students encounter the social, political, economic, and technological challenges of engineering practice by participating in real engineering projects with faculty and industry; this semester's major project focuses on the engineering and economics of solar cells. Student teams will create prototypes and mixed media reports with exercises in project planning, analysis, design, optimization, demonstration, reporting and team building. This class introduces students to the interdisciplinary nature of 21st-century engineering projects with three threads of learning: a technical toolkit, a social science toolkit, and a methodology for problem-based learning. Students encounter the social, political, economic, and technological challenges of engineering practice by participating in real engineering projects with faculty and industry; this semester's major project focuses on the engineering and economics of solar cells. Student teams will create prototypes and mixed media reports with exercises in project planning, analysis, design, optimization, demonstration, reporting and team building.

Subjects

ethical engineering | ethical engineering | communication | communication | technical writing | technical writing | inventions | inventions | patents | patents | transportation | transportation | infrastructure | infrastructure | sustainable materials | sustainable materials | photovoltaic cell | photovoltaic cell | electromagnetic waves | electromagnetic waves

License

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