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6.003 Signals and Systems (MIT) 6.003 Signals and Systems (MIT)

Description

This course covers fundamentals of signal and system analysis, with applications drawn from filtering, audio and image processing, communications, and automatic control. Topics include convolution, Fourier series and transforms, sampling and discrete-time processing of continuous-time signals, modulation, Laplace and Z-transforms, and feedback systems. This course covers fundamentals of signal and system analysis, with applications drawn from filtering, audio and image processing, communications, and automatic control. Topics include convolution, Fourier series and transforms, sampling and discrete-time processing of continuous-time signals, modulation, Laplace and Z-transforms, and feedback systems.Subjects

signal and system analysis | signal and system analysis | filtering | filtering | audio | audio | audio processing | audio processing | image processing | image processing | communications | communications | automatic control | automatic control | convolution | convolution | Fourier series | Fourier series | fourier transforms | fourier transforms | sampling | sampling | discrete-time processing | discrete-time processing | modulation | modulation | Laplace transforms | Laplace transforms | Z-transforms | Z-transforms | feedback systems | feedback systemsLicense

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.htmSite sourced from

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This course deals with modeling multi-domain engineering systems at a level of detail suitable for design and control system implementation. Topics covered include network representation, state-space models; multi-port energy storage and dissipation, Legendre transforms, nonlinear mechanics, transformation theory, Lagrangian and Hamiltonian forms and control-relevant properties. Application examples may include electro-mechanical transducers, mechanisms, electronics, fluid and thermal systems, compressible flow, chemical processes, diffusion, and wave transmission. This course deals with modeling multi-domain engineering systems at a level of detail suitable for design and control system implementation. Topics covered include network representation, state-space models; multi-port energy storage and dissipation, Legendre transforms, nonlinear mechanics, transformation theory, Lagrangian and Hamiltonian forms and control-relevant properties. Application examples may include electro-mechanical transducers, mechanisms, electronics, fluid and thermal systems, compressible flow, chemical processes, diffusion, and wave transmission.Subjects

Modeling multi-domain engineering systems | Modeling multi-domain engineering systems | design and control system implementation | design and control system implementation | Network representation | Network representation | state-space models | state-space models | dissipation | dissipation | Legendre transforms | Legendre transforms | Nonlinear mechanics | Nonlinear mechanics | transformation theory | transformation theory | Hamiltonian forms | Hamiltonian forms | Control-relevant properties | Control-relevant properties | electro-mechanical transducers | electro-mechanical transducers | mechanisms | mechanisms | electronics | electronics | thermal systems | thermal systems | compressible flow | compressible flow | chemical processes | chemical processes | diffusion | diffusion | wave transmission | wave transmissionLicense

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.htmSite sourced from

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This course models multi-domain engineering systems at a level of detail suitable for design and control system implementation. Topics include network representation, state-space models; multi-port energy storage and dissipation, Legendre transforms; nonlinear mechanics, transformation theory, Lagrangian and Hamiltonian forms; and control-relevant properties. Application examples may include electro-mechanical transducers, mechanisms, electronics, fluid and thermal systems, compressible flow, chemical processes, diffusion, and wave transmission. This course models multi-domain engineering systems at a level of detail suitable for design and control system implementation. Topics include network representation, state-space models; multi-port energy storage and dissipation, Legendre transforms; nonlinear mechanics, transformation theory, Lagrangian and Hamiltonian forms; and control-relevant properties. Application examples may include electro-mechanical transducers, mechanisms, electronics, fluid and thermal systems, compressible flow, chemical processes, diffusion, and wave transmission.Subjects

Modeling multi-domain engineering systems | Modeling multi-domain engineering systems | design and control system implementation | design and control system implementation | Network representation | Network representation | state-space models | state-space models | dissipation | dissipation | Legendre transforms | Legendre transforms | Nonlinear mechanics | Nonlinear mechanics | transformation theory | transformation theory | Hamiltonian forms | Hamiltonian forms | Control-relevant properties | Control-relevant properties | electro-mechanical transducers | electro-mechanical transducers | mechanisms | mechanisms | electronics | electronics | thermal systems | thermal systems | compressible flow | compressible flow | chemical processes | chemical processes | diffusion | diffusion | wave transmission | wave transmissionLicense

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.htmSite sourced from

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Business organizations and markets use a bewildering variety of structures to coordinate the productive activities of their stakeholders. Dramatic changes in information technology and the nature of economic competition are forcing firms to come up with new ways of organizing work. This course uses economic theory to investigate the roles of information and technology in the existing diversity of organizations and markets and in enabling the creating of new organizational forms. Business organizations and markets use a bewildering variety of structures to coordinate the productive activities of their stakeholders. Dramatic changes in information technology and the nature of economic competition are forcing firms to come up with new ways of organizing work. This course uses economic theory to investigate the roles of information and technology in the existing diversity of organizations and markets and in enabling the creating of new organizational forms.Subjects

business organizations | business organizations | economic theory | economic theory | stakeholders | stakeholders | information technology | information technology | nature of economic competition | nature of economic competition | new ways of organizing work | new ways of organizing work | roles of information and technology organizational forms | roles of information and technology organizational forms | new organizational forms | new organizational forms | organizations | organizationsLicense

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.htmSite sourced from

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See all metadata18.04 Complex Variables with Applications (MIT) 18.04 Complex Variables with Applications (MIT)

Description

This course explored topics such as complex algebra and functions, analyticity, contour integration, Cauchy's theorem, singularities, Taylor and Laurent series, residues, evaluation of integrals, multivalued functions, potential theory in two dimensions, Fourier analysis and Laplace transforms. This course explored topics such as complex algebra and functions, analyticity, contour integration, Cauchy's theorem, singularities, Taylor and Laurent series, residues, evaluation of integrals, multivalued functions, potential theory in two dimensions, Fourier analysis and Laplace transforms.Subjects

Complex algebra and functions | Complex algebra and functions | analyticity | analyticity | contour integration | Cauchy's theorem | contour integration | Cauchy's theorem | singularities | Taylor and Laurent series | singularities | Taylor and Laurent series | residues | evaluation of integrals | residues | evaluation of integrals | multivalued functions | potential theory in two dimensions | multivalued functions | potential theory in two dimensions | Fourier analysis and Laplace transforms. | Fourier analysis and Laplace transforms. | Fourier analysis and Laplace transforms | Fourier analysis and Laplace transformsLicense

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.htmSite sourced from

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See all metadataReadme file for Rapid Application Development

Description

This readme file contains details of links to all the Rapid Application Development module's material held on Jorum and information about the module as well.Subjects

ukoer | access 2003 practical | access 2007 lecture | access 2007 practical | access 2007 task guide | access 2007 | access lecture | access practical | access reading material | action queries lecture | action queries practical | action queries task guide | action queries | action query lecture | action query practical | action query task guide | action query | asp.net lecture | asp.net practical | asp.net reading material | asp.net task guide | asp.net | class modules reading material | classes lecture | classes practical | classes reading material | classes task guide | classes | client server lecture | client server reading material | client server task guide | client server | data access practical | form data lecture | form data practical | form data task guide | form data | forms lecture | forms practical | forms task guide | forms | menus and toolbars lecture | menus and toolbars practical | menus and toolbars task guide | menus and toolbars | menus lecture | menus practical | menus task guide | menus | multitier architecture lecture | multitier architecture reading material | multitier architecture task guide | multitier architecture | multitier architectures lecture | multitier architectures reading material | multitier architectures task guide | multitier architectures | object concepts lecture | object concepts practical | object concepts reading material | object concepts task guide | object concepts | objects practical | objects task guide | queries lecture | rad lecture | rad methodologies reading material | rad methodology lecture | rad methodology practical | rad methodology reading material | rad methodology task guide | rad methodology | rad practical | rad reading material | rad task guide | rad | rapid application development lecture | rapid application development methodologies lecture | rapid application development methodologies practical | rapid application development methodologies reading material | rapid application development methodologies task guide | rapid application development methodologies | rapid application development methodology lecture | rapid application development methodology practical | rapid application development methodology reading material | rapid application development methodology task guide | rapid application development methodology | rapid application development practical | rapid application development reading material | rapid application development task guide | rapid application development | rapid application practical | rapid application task guide | recordset lecture | recordset practical | recordset task guide | recordset | recordsetclone lecture | recordsetclone practical | recordsetclone task guide | recordsetclone | recordsets lecture | recordsets practical | recordsets task guide | recordsets | recordsource practical | reports lecture | reports practical | reports task guide | reports | sql lecture | toolbars lecture | toolbars practical | toolbars task guide | toolbars | unbound recordsets practical | unbound recordsets task guide | user controls lecture | user controls practical | user controls reading material | user controls task guide | user controls | vba practical | vba lecture | vba reading material | vba task guide | vba | visual basic for applications lecture | visual basic for applications practical | visual basic for applications reading material | visual basic for applications task guide | visual basic for applications | visual basic lecture | visual basic practical | visual basic reading material | visual basic task guide | visual basic | web delivery task guide | .net lecture | .net practical | .net reading material | .net task guide | net | 4gl lecture | 4gl practical | 4gl task guide | 4gl | asp lecture | asp practical | asp reading material | asp task guide | asp | g400 lecture | g400 practical | g400 reading material | g400 task guide | g400 | rad methodologies lecture | rad methodologies practical | rad methodologies task guide | rad methodologies | practical report | Computer science | I100License

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See all metadata18.311 Principles of Applied Mathematics (MIT) 18.311 Principles of Applied Mathematics (MIT)

Description

18.311 Principles of Continuum Applied Mathematics covers fundamental concepts in continuous applied mathematics, including applications from traffic flow, fluids, elasticity, granular flows, etc. The class also covers continuum limit; conservation laws, quasi-equilibrium; kinematic waves; characteristics, simple waves, shocks; diffusion (linear and nonlinear); numerical solution of wave equations; finite differences, consistency, stability; discrete and fast Fourier transforms; spectral methods; transforms and series (Fourier, Laplace). Additional topics may include sonic booms, Mach cone, caustics, lattices, dispersion, and group velocity. 18.311 Principles of Continuum Applied Mathematics covers fundamental concepts in continuous applied mathematics, including applications from traffic flow, fluids, elasticity, granular flows, etc. The class also covers continuum limit; conservation laws, quasi-equilibrium; kinematic waves; characteristics, simple waves, shocks; diffusion (linear and nonlinear); numerical solution of wave equations; finite differences, consistency, stability; discrete and fast Fourier transforms; spectral methods; transforms and series (Fourier, Laplace). Additional topics may include sonic booms, Mach cone, caustics, lattices, dispersion, and group velocity.Subjects

partial differential equation | partial differential equation | hyperbolic equations | hyperbolic equations | dimensional analysis | dimensional analysis | perturbation methods | perturbation methods | hyperbolic systems | hyperbolic systems | diffusion and reaction processes | diffusion and reaction processes | continuum models | continuum models | equilibrium models | equilibrium models | continuous applied mathematics | continuous applied mathematics | traffic flow | traffic flow | fluids | fluids | elasticity | elasticity | granular flows | granular flows | continuum limit | continuum limit | conservation laws | conservation laws | quasi-equilibrium | quasi-equilibrium | kinematic waves | kinematic waves | characteristics | characteristics | simple waves | simple waves | shocks | shocks | diffusion (linear and nonlinear) | diffusion (linear and nonlinear) | numerical solution of wave equations | numerical solution of wave equations | finite differences | finite differences | consistency | consistency | stability | stability | discrete and fast Fourier transforms | discrete and fast Fourier transforms | spectral methods | spectral methods | transforms and series (Fourier | Laplace) | transforms and series (Fourier | Laplace) | sonic booms | sonic booms | Mach cone | Mach cone | caustics | caustics | lattices | lattices | dispersion | dispersion | group velocity | group velocityLicense

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.htmSite sourced from

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See all metadata8.05 Quantum Physics II (MIT) 8.05 Quantum Physics II (MIT)

Description

Together, this course and 8.06: Quantum Physics III cover quantum physics with applications drawn from modern physics. Topics covered in this course include the general formalism of quantum mechanics, harmonic oscillator, quantum mechanics in three-dimensions, angular momentum, spin, and addition of angular momentum. Together, this course and 8.06: Quantum Physics III cover quantum physics with applications drawn from modern physics. Topics covered in this course include the general formalism of quantum mechanics, harmonic oscillator, quantum mechanics in three-dimensions, angular momentum, spin, and addition of angular momentum.Subjects

General formalism of quantum mechanics: states | General formalism of quantum mechanics: states | operators | operators | Dirac notation | Dirac notation | representations | representations | measurement theory | measurement theory | Harmonic oscillator: operator algebra | Harmonic oscillator: operator algebra | states | states | Quantum mechanics in three-dimensions: central potentials and the radial equation | Quantum mechanics in three-dimensions: central potentials and the radial equation | bound and scattering states | bound and scattering states | qualitative analysis of wavefunctions | qualitative analysis of wavefunctions | Angular momentum: operators | Angular momentum: operators | commutator algebra | commutator algebra | eigenvalues and eigenstates | eigenvalues and eigenstates | spherical harmonics | spherical harmonics | Spin: Stern-Gerlach devices and measurements | Spin: Stern-Gerlach devices and measurements | nuclear magnetic resonance | nuclear magnetic resonance | spin and statistics | spin and statistics | Addition of angular momentum: Clebsch-Gordan series and coefficients | Addition of angular momentum: Clebsch-Gordan series and coefficients | spin systems | spin systems | allotropic forms of hydrogen | allotropic forms of hydrogen | Angular momentum | Angular momentum | Harmonic oscillator | Harmonic oscillator | operator algebra | operator algebra | Spin | Spin | Stern-Gerlach devices and measurements | Stern-Gerlach devices and measurements | central potentials and the radial equation | central potentials and the radial equation | Clebsch-Gordan series and coefficients | Clebsch-Gordan series and coefficients | quantum physics | quantum physics | 8. Quantum mechanics in three-dimensions: central potentials and the radial equation | 8. Quantum mechanics in three-dimensions: central potentials and the radial equation | and allotropic forms of hydrogen | and allotropic forms of hydrogenLicense

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.htmSite sourced from

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Subjects

statelibraryofqueensland | statelibraryofqueensland | slq | slq | queensland | queensland | school | school | classroom | classroom | desks | desks | schooluniforms | schooluniforms | uniforms | uniforms | exams | examsLicense

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See all metadataRapid Application Development - Review of Forms

Description

This task guide forms part of the "Review of Forms" topic in the Rapid Application Development module.Subjects

ukoer | forms | forms practical | rad | rapid application development | forms task guide | rad task guide | rapid application development task guide | g400 | g400 task guide | Computer science | I100License

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

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See all metadata6.003 Signals and Systems (MIT)

Description

This course covers fundamentals of signal and system analysis, with applications drawn from filtering, audio and image processing, communications, and automatic control. Topics include convolution, Fourier series and transforms, sampling and discrete-time processing of continuous-time signals, modulation, Laplace and Z-transforms, and feedback systems.Subjects

signal and system analysis | filtering | audio | audio processing | image processing | communications | automatic control | convolution | Fourier series | fourier transforms | sampling | discrete-time processing | modulation | Laplace transforms | Z-transforms | feedback systemsLicense

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.htmSite sourced from

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At the beginning of the eighteenth century Russia began to come into its own as a major European power. Members of the Russian intellectual classes increasingly compared themselves and their autocratic order to states and societies in the West. This comparison generated both a new sense of national consciousness and intense criticism of the existing order in Russia. In this course we will examine different perspectives on Russian history and literature in order to try to understand the Russian Empire as it changed from the medieval period to the modern. At the beginning of the eighteenth century Russia began to come into its own as a major European power. Members of the Russian intellectual classes increasingly compared themselves and their autocratic order to states and societies in the West. This comparison generated both a new sense of national consciousness and intense criticism of the existing order in Russia. In this course we will examine different perspectives on Russian history and literature in order to try to understand the Russian Empire as it changed from the medieval period to the modern.Subjects

Muscovy | Muscovy | Empire | Empire | Peter the Great | Peter the Great | Catherine II | Catherine II | nobility | nobility | bourgeoisie | bourgeoisie | Constitution | Constitution | bureaucracy | bureaucracy | Nicholas I | Nicholas I | Decembrists | Decembrists | serfdom | serfdom | Alexander II | Alexander II | Great reforms | Great reforms | intelligentsia | intelligentsia | Caucasus | Caucasus | Russo-Japanese War | Russo-Japanese War | Lenin | Lenin | World War I | World War I | Nicholas II | Nicholas IILicense

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.htmSite sourced from

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See all metadata6.003 Signals and Systems (MIT) 6.003 Signals and Systems (MIT)

Description

6.003 covers the fundamentals of signal and system analysis, focusing on representations of discrete-time and continuous-time signals (singularity functions, complex exponentials and geometrics, Fourier representations, Laplace and Z transforms, sampling) and representations of linear, time-invariant systems (difference and differential equations, block diagrams, system functions, poles and zeros, convolution, impulse and step responses, frequency responses). Applications are drawn broadly from engineering and physics, including feedback and control, communications, and signal processing. 6.003 covers the fundamentals of signal and system analysis, focusing on representations of discrete-time and continuous-time signals (singularity functions, complex exponentials and geometrics, Fourier representations, Laplace and Z transforms, sampling) and representations of linear, time-invariant systems (difference and differential equations, block diagrams, system functions, poles and zeros, convolution, impulse and step responses, frequency responses). Applications are drawn broadly from engineering and physics, including feedback and control, communications, and signal processing.Subjects

signal and system analysis | signal and system analysis | representations of discrete-time and continuous-time signals | representations of discrete-time and continuous-time signals | representations of linear time-invariant systems | representations of linear time-invariant systems | Fourier representations | Fourier representations | Laplace and Z transforms | Laplace and Z transforms | sampling | sampling | difference and differential equations | difference and differential equations | feedback and control | feedback and control | communications | communications | signal processing | signal processingLicense

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.htmSite sourced from

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Applied Parallel Computing is an advanced interdisciplinary introduction to applied parallel computing on modern supercomputers. Applied Parallel Computing is an advanced interdisciplinary introduction to applied parallel computing on modern supercomputers.Subjects

dense and sparse linear algebra | dense and sparse linear algebra | N-body problems | N-body problems | Fourier transforms | Fourier transforms | partitioning | partitioning | mesh generation | mesh generation | 18.337 | 18.337 | 6.338 | 6.338License

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.htmSite sourced from

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See all metadata2.29 Numerical Fluid Mechanics (MIT) 2.29 Numerical Fluid Mechanics (MIT)

Description

This course introduces students to MATLAB®. Numerical methods include number representation and errors, interpolation, differentiation, integration, systems of linear equations, and Fourier interpolation and transforms. Students will study partial and ordinary differential equations as well as elliptic and parabolic differential equations, and solutions by numerical integration, finite difference methods, finite element methods, boundary element methods, and panel methods. This course introduces students to MATLAB®. Numerical methods include number representation and errors, interpolation, differentiation, integration, systems of linear equations, and Fourier interpolation and transforms. Students will study partial and ordinary differential equations as well as elliptic and parabolic differential equations, and solutions by numerical integration, finite difference methods, finite element methods, boundary element methods, and panel methods.Subjects

numerical methods | numerical methods | interpolation | interpolation | integration | integration | systems of linear equations | systems of linear equations | differential equations | differential equations | numerical integration | numerical integration | partial differential equations of inviscid hydrodynamics | partial differential equations of inviscid hydrodynamics | finite difference methods | finite difference methods | boundary integral equation panel methods | boundary integral equation panel methods | numerical lifting surface computations | numerical lifting surface computations | Fast Fourier Transforms | Fast Fourier Transforms | Numerical representation | Numerical representation | deterministic and random sea waves | deterministic and random sea waves | Integral boundary layer equations | Integral boundary layer equations | numerical solutions | numerical solutionsLicense

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.htmSite sourced from

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This class offers students an opportunity to experiment with various forms and practices of cellphone communication and, most importantly, to propose and develop a semester-long project using advanced A780 cellphones donated by Motorola along with access to J2ME™ source code for programming cellphone applications. Class size is limited. Students in small collaborative groups will propose, implement and report on a semester-long project. This class offers students an opportunity to experiment with various forms and practices of cellphone communication and, most importantly, to propose and develop a semester-long project using advanced A780 cellphones donated by Motorola along with access to J2ME™ source code for programming cellphone applications. Class size is limited. Students in small collaborative groups will propose, implement and report on a semester-long project.Subjects

communication | communication | contemporary engineering and science professional | contemporary engineering and science professional | analyzing how composition and publication contribute to work management and knowledge production | analyzing how composition and publication contribute to work management and knowledge production | writing specific kinds of documents in a clear style | writing specific kinds of documents in a clear style | communication as organizational process | communication as organizational process | electronic modes such as e-mail and the Internet | electronic modes such as e-mail and the Internet | the informational and social roles of specific document forms | the informational and social roles of specific document forms | writing as collaboration | writing as collaboration | the writing process | the writing process | the elements of style | the elements of style | methods of oral presentation | and communication ethics | methods of oral presentation | and communication ethics | case studies | case studies | writing assignments | writing assignments | oral presentation | oral presentation | methods of oral presentation | and communication ethics | methods of oral presentation | and communication ethicsLicense

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See all metadata4.42J Fundamentals of Energy in Buildings (MIT) 4.42J Fundamentals of Energy in Buildings (MIT)

Description

This subject provides a first course in thermo-sciences for students primarily interested in architecture and building technology. It introduces the fundamentals important to energy, ventilation, air conditioning and comfort in buildings. It includes a detailed treatment of different forms of energy, energy conservation, properties of gases and liquids, air-water vapor mixtures and performance limits for air conditioning and power producing systems. Heat transfer principles are introduced with applications to energy losses from a building envelope. The subject is a prerequisite for more advanced thermo-science subjects in Architecture and Mechanical Engineering. This subject provides a first course in thermo-sciences for students primarily interested in architecture and building technology. It introduces the fundamentals important to energy, ventilation, air conditioning and comfort in buildings. It includes a detailed treatment of different forms of energy, energy conservation, properties of gases and liquids, air-water vapor mixtures and performance limits for air conditioning and power producing systems. Heat transfer principles are introduced with applications to energy losses from a building envelope. The subject is a prerequisite for more advanced thermo-science subjects in Architecture and Mechanical Engineering.Subjects

energy in buildings | energy in buildings | ventilation | ventilation | air conditioning | air conditioning | forms of energy | forms of energy | energy conservation | energy conservation | heat transfer | heat transfer | energy losses from buildings | energy losses from buildingsLicense

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.htmSite sourced from

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See all metadata18.701 Algebra I (MIT) 18.701 Algebra I (MIT)

Description

This undergraduate level Algebra I course covers groups, vector spaces, linear transformations, symmetry groups, bilinear forms, and linear groups. This undergraduate level Algebra I course covers groups, vector spaces, linear transformations, symmetry groups, bilinear forms, and linear groups.Subjects

Group Theory | Group Theory | Linear Algebra | and Geometry | Linear Algebra | and Geometry | groups | groups | vector spaces | vector spaces | linear transformations | linear transformations | symmetry groups | symmetry groups | bilinear | bilinear | bilinear forms | and linear groups | bilinear forms | and linear groupsLicense

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.htmSite sourced from

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See all metadata21G.740 The New Spain: 1977-Present (MIT) 21G.740 The New Spain: 1977-Present (MIT)

Description

This course deals with the vast changes in Spanish social, political, and cultural life that have taken place since the death of Franco. It examines the new freedom from censorship; the re-emergence of strong movements for regional autonomy: the Basque region and Catalonia; the new cinema including Almodóvar and Saura; educational reforms instituted by the socialist government, and the fiction of Carme Riera and Terenci Moix. Special emphasis is placed on the emergence of mass media as a vehicle for expression in Spain. Consideration is given to the changes wrought by Spain's acceptance into the European Community. Materials include magazines, newspapers, films, fiction and Amando de Miguel's Los Españoles. This course is taught in Spanish. This course deals with the vast changes in Spanish social, political, and cultural life that have taken place since the death of Franco. It examines the new freedom from censorship; the re-emergence of strong movements for regional autonomy: the Basque region and Catalonia; the new cinema including Almodóvar and Saura; educational reforms instituted by the socialist government, and the fiction of Carme Riera and Terenci Moix. Special emphasis is placed on the emergence of mass media as a vehicle for expression in Spain. Consideration is given to the changes wrought by Spain's acceptance into the European Community. Materials include magazines, newspapers, films, fiction and Amando de Miguel's Los Españoles. This course is taught in Spanish.Subjects

Spain | Spain | 1977 | 1977 | present | present | Spanish | Spanish | social | social | political | political | cultural life | cultural life | changes | changes | Franco | Franco | censorship | censorship | regional autonomy | regional autonomy | Basque | Basque | Catalonia | Catalonia | Almod?var | Almod?var | Saura | Saura | educational reforms | educational reforms | socialist | socialist | Carme Riera | Carme Riera | Terenci Moix | Terenci Moix | mass media | mass media | European Community | European Community | magazines | magazines | newspapers | newspapers | films | films | fiction | fiction | Amando de Miguel | Amando de Miguel | Los Espa?oles | Los Espa?olesLicense

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.htmSite sourced from

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See all metadata18.06 Linear Algebra (MIT) 18.06 Linear Algebra (MIT)

Description

This is a basic subject on matrix theory and linear algebra. Emphasis is given to topics that will be useful in other disciplines, including systems of equations, vector spaces, determinants, eigenvalues, similarity, and positive definite matrices. This is a basic subject on matrix theory and linear algebra. Emphasis is given to topics that will be useful in other disciplines, including systems of equations, vector spaces, determinants, eigenvalues, similarity, and positive definite matrices.Subjects

Generalized spaces | Generalized spaces | Linear algebra | Linear algebra | Algebra | Universal | Algebra | Universal | Mathematical analysis | Mathematical analysis | Calculus of operations | Calculus of operations | Line geometry | Line geometry | Topology | Topology | matrix theory | matrix theory | systems of equations | systems of equations | vector spaces | vector spaces | systems determinants | systems determinants | eigen values | eigen values | positive definite matrices | positive definite matrices | Markov processes | Markov processes | Fourier transforms | Fourier transforms | differential equations | differential equations | linear algebra | linear algebra | determinants | determinants | eigenvalues | eigenvalues | similarity | similarity | least-squares approximations | least-squares approximations | stability of differential equations | stability of differential equations | networks | networksLicense

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.htmSite sourced from

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This subject analyzes Russia's social, cultural, political heritage; Eurasian imperialism; and autocracy. It compares reforming and revolutionary impulses in the context of serfdom, the rise of the intelligentsia, and debates over capitalism. This class focuses on historical and literary texts, and especially the intersections between the two. This subject analyzes Russia's social, cultural, political heritage; Eurasian imperialism; and autocracy. It compares reforming and revolutionary impulses in the context of serfdom, the rise of the intelligentsia, and debates over capitalism. This class focuses on historical and literary texts, and especially the intersections between the two.Subjects

Muscovy | Muscovy | Empire | Empire | Peter the Great | Peter the Great | Catherine II | Catherine II | Pugachev | Pugachev | nobility | nobility | Constitution | Constitution | bureaucracy | bureaucracy | Nicholas I | Nicholas I | Decembrists | Decembrists | serfdom | serfdom | Alexander II | Alexander II | Great reforms | Great reforms | intelligentsia | intelligentsia | Caucasus | Caucasus | Chechnya | Chechnya | Lenin | Lenin | World War I | World War I | Nicholas II | Nicholas II | Rasputin | Rasputin | Russia | Russia | social heritage | social heritage | cultural heritage | cultural heritage | political heritage | political heritage | Eurasian imperialism | Eurasian imperialism | autocracy | autocracy | political reform | political reform | political revolution | political revolution | revolutionary | revolutionary | debates | debates | capitalism | capitalism | historical texts | historical texts | literary texts | literary texts | nineteenth century | nineteenth century | 19th century | 19th century | major European power | major European power | intellectual class | intellectual class | autocratic order | autocratic order | states | states | societies | societies | West | West | national consciousness | national consciousness | state | state | society | societyLicense

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.htmSite sourced from

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See all metadata18.701 Algebra I (MIT) 18.701 Algebra I (MIT)

Description

The subjects to be covered include groups, vector spaces, linear transformations, symmetry groups, bilinear forms, and linear groups. The subjects to be covered include groups, vector spaces, linear transformations, symmetry groups, bilinear forms, and linear groups.Subjects

Group Theory | Group Theory | Linear Algebra | and Geometry | Linear Algebra | and Geometry | groups | groups | vector spaces | vector spaces | linear transformations | linear transformations | symmetry groups | symmetry groups | bilinear | bilinear | bilinear forms | and linear groups | bilinear forms | and linear groupsLicense

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.htmSite sourced from

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See all metadata16.31 Feedback Control Systems (MIT) 16.31 Feedback Control Systems (MIT)

Description

The goal of this subject is to teach the fundamentals of control design and analysis using state-space methods. This includes both the practical and theoretical aspects of the topic. By the end of the course, students should be able to design controllers using state-space methods and evaluate whether these controllers are "robust," that is, if they are likely to work well in practice. The goal of this subject is to teach the fundamentals of control design and analysis using state-space methods. This includes both the practical and theoretical aspects of the topic. By the end of the course, students should be able to design controllers using state-space methods and evaluate whether these controllers are "robust," that is, if they are likely to work well in practice.Subjects

feedback control | feedback control | feedback control system | feedback control system | state-space | state-space | controllability | controllability | observability | observability | transfer functions | transfer functions | canonical forms | canonical forms | controllers | controllers | pole-placement | pole-placement | optimal control | optimal control | Kalman filter | Kalman filterLicense

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.htmSite sourced from

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See all metadata12.006J Nonlinear Dynamics I: Chaos (MIT) 12.006J Nonlinear Dynamics I: Chaos (MIT)

Description

This course provides an introduction to the theory and phenomenology of nonlinear dynamics and chaos in dissipative systems. The content is structured to be of general interest to undergraduates in science and engineering. This course provides an introduction to the theory and phenomenology of nonlinear dynamics and chaos in dissipative systems. The content is structured to be of general interest to undergraduates in science and engineering.Subjects

Forced and parametric oscillators | Forced and parametric oscillators | Phase space | Phase space | Periodic | quasiperiodic | and aperiodic flows | Periodic | quasiperiodic | and aperiodic flows | Sensitivity to initial conditions and strange attractors | Sensitivity to initial conditions and strange attractors | Lorenz attractor | Lorenz attractor | Period doubling | intermittency | and quasiperiodicity | Period doubling | intermittency | and quasiperiodicity | Scaling and universality | Scaling and universality | Analysis of experimental data: Fourier transforms | Analysis of experimental data: Fourier transforms | Poincar? sections | Poincar? sections | fractal dimension | fractal dimension | Lyaponov exponents | Lyaponov exponentsLicense

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IEEE-standard, iterative and direct linear system solution methods, eigendecomposition and model-order reduction, fast Fourier transforms, multigrid, wavelets and other multiresolution methods, matrix sparsification. Nonlinear root finding (Newton's method). Numerical interpolation and extrapolation. Quadrature.Technical RequirementsFile decompression software, such as Winzip or StuffIt, is required to open the .tar files found on this course site. The .tar files contain additional files which require software as well. MATLAB® software is required to run the .m files.Postscript viewer software, such as Ghostscript/Ghostview, can be used to view the .ps files.Ghostscript/Ghostview, Adobe Photoshop, and Adobe Illustrator are among the software tools that can be used to view the .ep IEEE-standard, iterative and direct linear system solution methods, eigendecomposition and model-order reduction, fast Fourier transforms, multigrid, wavelets and other multiresolution methods, matrix sparsification. Nonlinear root finding (Newton's method). Numerical interpolation and extrapolation. Quadrature.Technical RequirementsFile decompression software, such as Winzip or StuffIt, is required to open the .tar files found on this course site. The .tar files contain additional files which require software as well. MATLAB® software is required to run the .m files.Postscript viewer software, such as Ghostscript/Ghostview, can be used to view the .ps files.Ghostscript/Ghostview, Adobe Photoshop, and Adobe Illustrator are among the software tools that can be used to view the .epSubjects

IEEE-standard | IEEE-standard | iterative and direct linear system solution methods | iterative and direct linear system solution methods | eigendecomposition and model-order reduction | eigendecomposition and model-order reduction | fast Fourier transforms | fast Fourier transforms | multigrid | multigrid | wavelets | wavelets | other multiresolution methods | other multiresolution methods | matrix sparsification | matrix sparsification | Nonlinear root finding (Newton's method) | Nonlinear root finding (Newton's method) | Numerical interpolation | Numerical interpolation | Numerical extrapolation | Numerical extrapolation | Quadrature | Quadrature | 18.335 | 18.335 | 6.337 | 6.337License

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.htmSite sourced from

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