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Description

This open educational resource was released through the Higher Education Academy Engineering Subject Centre Open Engineering Resources Pilot project. The project was funded by HEFCE and the JISC/HE Academy UKOER programme.Subjects

capacitor voltage | oer | second order equations | algebra | beng | electrical | laplace transformation | rcl network | laplace transforms | charge | engscoer | ukoer | circuit | engsc | electronics | function | newportunioer | transient responses | capacitor | hn | voltage | newport | electrical and electronic principals | exponential charge up | equations | university of wales | laplace | rc network | foundation degree | engineering | 2009 | calculus | circuit theory | Engineering | H000License

Attribution 2.0 UK: England & Wales Attribution 2.0 UK: England & Wales http://creativecommons.org/licenses/by/2.0/uk/ http://creativecommons.org/licenses/by/2.0/uk/Site sourced from

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See all metadata22.105 Electromagnetic Interactions (MIT) 22.105 Electromagnetic Interactions (MIT)

Description

This course is a graduate level subject on electromagnetic theory with particular emphasis on basics and applications to Nuclear Science and Engineering. The basic topics covered include electrostatics, magnetostatics, and electromagnetic radiation. The applications include transmission lines, waveguides, antennas, scattering, shielding, charged particle collisions, Bremsstrahlung radiation, and Cerenkov radiation. Acknowledgments Professor Freidberg would like to acknowledge the immense contributions made to this course by its previous instructors, Ian Hutchinson and Ron Parker. This course is a graduate level subject on electromagnetic theory with particular emphasis on basics and applications to Nuclear Science and Engineering. The basic topics covered include electrostatics, magnetostatics, and electromagnetic radiation. The applications include transmission lines, waveguides, antennas, scattering, shielding, charged particle collisions, Bremsstrahlung radiation, and Cerenkov radiation. Acknowledgments Professor Freidberg would like to acknowledge the immense contributions made to this course by its previous instructors, Ian Hutchinson and Ron Parker.Subjects

electrostatics | electrostatics | coulomb's law | coulomb's law | gauss's law | gauss's law | potentials | potentials | laplace equations | laplace equations | poisson equations | poisson equations | capacitors | capacitors | resistors | resistors | child-langmuir law | child-langmuir law | magnetostatics | magnetostatics | ampere's law | ampere's law | biot-savart law | biot-savart law | magnets | magnets | inductors | inductors | superconducting magnets | superconducting magnets | single particle motion | single particle motion | lorentz force | lorentz force | quasi-statics | quasi-statics | faraday's law | faraday's law | maxwell equations | maxwell equations | plane waves | plane waves | reflection | reflection | refraction | refraction | klystrons | klystrons | gyrotrons | gyrotrons | lienard-wiechert potentials | lienard-wiechert potentials | thomson scattering | thomson scattering | compton scattering | compton scattering | synchrotron radiation | synchrotron radiation | bremsstrahlung radiation | bremsstrahlung radiation | cerenkov radiation | cerenkov radiationLicense

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 metadata22.105 Electromagnetic Interactions (MIT) 22.105 Electromagnetic Interactions (MIT)

Description

This course is a graduate level subject on electromagnetic theory with particular emphasis on basics and applications to Nuclear Science and Engineering. The basic topics covered include electrostatics, magnetostatics, and electromagnetic radiation. The applications include transmission lines, waveguides, antennas, scattering, shielding, charged particle collisions, Bremsstrahlung radiation, and Cerenkov radiation. Acknowledgments Professor Freidberg would like to acknowledge the immense contributions made to this course by its previous instructors, Ian Hutchinson and Ron Parker. This course is a graduate level subject on electromagnetic theory with particular emphasis on basics and applications to Nuclear Science and Engineering. The basic topics covered include electrostatics, magnetostatics, and electromagnetic radiation. The applications include transmission lines, waveguides, antennas, scattering, shielding, charged particle collisions, Bremsstrahlung radiation, and Cerenkov radiation. Acknowledgments Professor Freidberg would like to acknowledge the immense contributions made to this course by its previous instructors, Ian Hutchinson and Ron Parker.Subjects

electrostatics | electrostatics | coulomb's law | coulomb's law | gauss's law | gauss's law | potentials | potentials | laplace equations | laplace equations | poisson equations | poisson equations | capacitors | capacitors | resistors | resistors | child-langmuir law | child-langmuir law | magnetostatics | magnetostatics | ampere's law | ampere's law | biot-savart law | biot-savart law | magnets | magnets | inductors | inductors | superconducting magnets | superconducting magnets | single particle motion | single particle motion | lorentz force | lorentz force | quasi-statics | quasi-statics | faraday's law | faraday's law | maxwell equations | maxwell equations | plane waves | plane waves | reflection | reflection | refraction | refraction | klystrons | klystrons | gyrotrons | gyrotrons | lienard-wiechert potentials | lienard-wiechert potentials | thomson scattering | thomson scattering | compton scattering | compton scattering | synchrotron radiation | synchrotron radiation | bremsstrahlung radiation | bremsstrahlung radiation | cerenkov radiation | cerenkov radiationLicense

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 metadata18.034 Honors Differential Equations (MIT) 18.034 Honors Differential Equations (MIT)

Description

This course covers the same material as 18.03 with more emphasis on theory. Topics include first order equations, separation, initial value problems, systems, linear equations, independence of solutions, undetermined coefficients, and singular points and periodic orbits for planar systems. This course covers the same material as 18.03 with more emphasis on theory. Topics include first order equations, separation, initial value problems, systems, linear equations, independence of solutions, undetermined coefficients, and singular points and periodic orbits for planar systems.Subjects

First order equations | First order equations | Separation | Separation | initial value problems | initial value problems | Systems | Systems | linear equations | linear equations | independence of solutions | independence of solutions | undetermined coefficients | undetermined coefficients | Singular points | Singular points | periodic orbits for planar systems | periodic orbits for planar systems | first order ode's | first order ode's | second order ode's | second order ode's | fourier series | fourier series | laplace transform | laplace transform | linear systems | linear systems | nonlinear systems | nonlinear systems | constant coefficients | constant coefficientsLicense

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 metadata22.105 Electromagnetic Interactions (MIT)

Description

This course is a graduate level subject on electromagnetic theory with particular emphasis on basics and applications to Nuclear Science and Engineering. The basic topics covered include electrostatics, magnetostatics, and electromagnetic radiation. The applications include transmission lines, waveguides, antennas, scattering, shielding, charged particle collisions, Bremsstrahlung radiation, and Cerenkov radiation. Acknowledgments Professor Freidberg would like to acknowledge the immense contributions made to this course by its previous instructors, Ian Hutchinson and Ron Parker.Subjects

electrostatics | coulomb's law | gauss's law | potentials | laplace equations | poisson equations | capacitors | resistors | child-langmuir law | magnetostatics | ampere's law | biot-savart law | magnets | inductors | superconducting magnets | single particle motion | lorentz force | quasi-statics | faraday's law | maxwell equations | plane waves | reflection | refraction | klystrons | gyrotrons | lienard-wiechert potentials | thomson scattering | compton scattering | synchrotron radiation | bremsstrahlung radiation | cerenkov radiationLicense

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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See all metadata18.034 Honors Differential Equations (MIT)

Description

This course covers the same material as 18.03 with more emphasis on theory. Topics include first order equations, separation, initial value problems, systems, linear equations, independence of solutions, undetermined coefficients, and singular points and periodic orbits for planar systems.Subjects

First order equations | Separation | initial value problems | Systems | linear equations | independence of solutions | undetermined coefficients | Singular points | periodic orbits for planar systems | first order ode's | second order ode's | fourier series | laplace transform | linear systems | nonlinear systems | constant coefficientsLicense

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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See all metadata22.105 Electromagnetic Interactions (MIT)

Description

This course is a graduate level subject on electromagnetic theory with particular emphasis on basics and applications to Nuclear Science and Engineering. The basic topics covered include electrostatics, magnetostatics, and electromagnetic radiation. The applications include transmission lines, waveguides, antennas, scattering, shielding, charged particle collisions, Bremsstrahlung radiation, and Cerenkov radiation. Acknowledgments Professor Freidberg would like to acknowledge the immense contributions made to this course by its previous instructors, Ian Hutchinson and Ron Parker.Subjects

electrostatics | coulomb's law | gauss's law | potentials | laplace equations | poisson equations | capacitors | resistors | child-langmuir law | magnetostatics | ampere's law | biot-savart law | magnets | inductors | superconducting magnets | single particle motion | lorentz force | quasi-statics | faraday's law | maxwell equations | plane waves | reflection | refraction | klystrons | gyrotrons | lienard-wiechert potentials | thomson scattering | compton scattering | synchrotron radiation | bremsstrahlung radiation | cerenkov radiationLicense

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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See all metadataControl systems analysis for engineers

Description

This site contains links to resources for an introduction to control analysis for second year engineering undergraduate.The main focus is on block diagrams, offsets, pole computations, understanding stability/instability, root-loci, bode, nyquist, margins and an introduction to lead and lag compensation. The focus is on analysis not design which is covered in a later course. The resources here include the lecture hand outs which include embedded tutorial questions, some powerpoints for structuring lectures, some games/quizzes for lectures, a MATLAB laboratory based on significant prior practice, a FLASH lecture and then a formal laboratory test under exam conditions and a small data base of CAA developed on webct (here provided in a zip file). These were developed at the University of ShefSubjects

ukoer | block diagrams | feedback | offset | steady state errors | poles | open-loop | closed-loop | root-loci | control | performance | frequency response | gain margin | phase margin | lead compenssator | lag compensator | sisotool | signal flow graph | convolution | resonance | control analysis | classical control | creative commons | laplace | bode | nyquist | matlab | engineering undergraduate education ukoer | oer | jisc | hea | hea engineering subject centre | university of sheffield | flash lecture | sheffieldunioer | engscoer | cc-by | wales | engineering | Mathematical and Computer Sciences | Engineering | Computer science | H000 | I100 | ENGINEERING | XLicense

Attribution 2.0 UK: England & Wales Attribution 2.0 UK: England & Wales http://creativecommons.org/licenses/by/2.0/uk/ http://creativecommons.org/licenses/by/2.0/uk/Site sourced from

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See all metadata22.105 Electromagnetic Interactions (MIT)

Description

This course is a graduate level subject on electromagnetic theory with particular emphasis on basics and applications to Nuclear Science and Engineering. The basic topics covered include electrostatics, magnetostatics, and electromagnetic radiation. The applications include transmission lines, waveguides, antennas, scattering, shielding, charged particle collisions, Bremsstrahlung radiation, and Cerenkov radiation. Acknowledgments Professor Freidberg would like to acknowledge the immense contributions made to this course by its previous instructors, Ian Hutchinson and Ron Parker.Subjects

electrostatics | coulomb's law | gauss's law | potentials | laplace equations | poisson equations | capacitors | resistors | child-langmuir law | magnetostatics | ampere's law | biot-savart law | magnets | inductors | superconducting magnets | single particle motion | lorentz force | quasi-statics | faraday's law | maxwell equations | plane waves | reflection | refraction | klystrons | gyrotrons | lienard-wiechert potentials | thomson scattering | compton scattering | synchrotron radiation | bremsstrahlung radiation | cerenkov radiationLicense

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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See all metadata22.105 Electromagnetic Interactions (MIT)

Description

This course is a graduate level subject on electromagnetic theory with particular emphasis on basics and applications to Nuclear Science and Engineering. The basic topics covered include electrostatics, magnetostatics, and electromagnetic radiation. The applications include transmission lines, waveguides, antennas, scattering, shielding, charged particle collisions, Bremsstrahlung radiation, and Cerenkov radiation. Acknowledgments Professor Freidberg would like to acknowledge the immense contributions made to this course by its previous instructors, Ian Hutchinson and Ron Parker.Subjects

electrostatics | coulomb's law | gauss's law | potentials | laplace equations | poisson equations | capacitors | resistors | child-langmuir law | magnetostatics | ampere's law | biot-savart law | magnets | inductors | superconducting magnets | single particle motion | lorentz force | quasi-statics | faraday's law | maxwell equations | plane waves | reflection | refraction | klystrons | gyrotrons | lienard-wiechert potentials | thomson scattering | compton scattering | synchrotron radiation | bremsstrahlung radiation | cerenkov radiationLicense

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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