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8.022 Physics II: Electricity and Magnetism (MIT) 8.022 Physics II: Electricity and Magnetism (MIT)

Description

Course 8.022 is one of several second-term freshman physics courses offered at MIT. It is geared towards students who are looking for a thorough and challenging introduction to electricity and magnetism. Topics covered include: Electric and magnetic field and potential; introduction to special relativity; Maxwell's equations, in both differential and integral form; and properties of dielectrics and magnetic materials. In addition to the theoretical subject matter, several experiments in electricity and magnetism are performed by the students in the laboratory. Acknowledgments Prof. Sciolla would like to acknowledge the contributions of MIT Professors Scott Hughes and Peter Fisher to the development of this course. She would also like to acknowledge that these course materials include cont Course 8.022 is one of several second-term freshman physics courses offered at MIT. It is geared towards students who are looking for a thorough and challenging introduction to electricity and magnetism. Topics covered include: Electric and magnetic field and potential; introduction to special relativity; Maxwell's equations, in both differential and integral form; and properties of dielectrics and magnetic materials. In addition to the theoretical subject matter, several experiments in electricity and magnetism are performed by the students in the laboratory. Acknowledgments Prof. Sciolla would like to acknowledge the contributions of MIT Professors Scott Hughes and Peter Fisher to the development of this course. She would also like to acknowledge that these course materials include cont

Subjects

Electricity | Electricity | Magnetism | Magnetism | Maxwell's equations | Maxwell's equations | electrostatic potential | electrostatic potential | vector potential | vector potential | dielectrics | dielectrics | Coulomb's Law | Coulomb's Law | Electric Field | Electric Field | Electric Flux | Electric Flux | Gauss's Law | Gauss's Law | Electric Potential Gradient | Electric Potential Gradient | Poisson Equations | Poisson Equations | Laplace Equations | Laplace Equations | Curl | Curl | Conductors | Conductors | Capacitance | Capacitance | Resistance | Resistance | Kirchhoff's Rules | Kirchhoff's Rules | EMF | EMF | RC Circuits | RC Circuits | Th?venin Equivalence | Th?venin Equivalence | Magnetic Force | Magnetic Force | Magnetic Field | Magnetic Field | Ampere's Law | Ampere's Law | Special Relativity | Special Relativity | Spacetime | Spacetime | Biot-Savart Law | Biot-Savart Law | Faraday's Law | Faraday's Law | Lenz's Law | Lenz's Law | RL Circuits | RL Circuits | AC Circuits | AC Circuits | Electromagnetic Radiation | Electromagnetic Radiation | Poynting Vector | Poynting Vector | Magnetism | Maxwell's equations; | Magnetism | Maxwell's equations;

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8.512 Theory of Solids II (MIT) 8.512 Theory of Solids II (MIT)

Description

This is the second term of a theoretical treatment of the physics of solids. Topics covered include linear response theory; the physics of disorder; superconductivity; the local moment and itinerant magnetism; the Kondo problem and Fermi liquid theory. This is the second term of a theoretical treatment of the physics of solids. Topics covered include linear response theory; the physics of disorder; superconductivity; the local moment and itinerant magnetism; the Kondo problem and Fermi liquid theory.

Subjects

Linear response theory | Linear response theory | Fluctuation dissipation theorem | Fluctuation dissipation theorem | Scattering experiment | Scattering experiment | f-sum rule | f-sum rule | Physics of disorder | Physics of disorder | Kubo formula for conductivity | Kubo formula for conductivity | Conductance and sensitivity to boundary conditions | Conductance and sensitivity to boundary conditions | Scaling theory of localization | Scaling theory of localization | Mott variable range hopping | Mott variable range hopping | Superconductor | Superconductor | Transverse response | Transverse response | Landau diamagnetism | Landau diamagnetism | Microscopic derivation of London equation | Microscopic derivation of London equation | Effect of disorder | Effect of disorder | Quasiparticles and coherence factors | Quasiparticles and coherence factors | Tunneling and Josephson effect | Tunneling and Josephson effect | Magnetism | Magnetism | Local moment magnetism | Local moment magnetism | exchange interaction | exchange interaction | Ferro- and anti-ferro magnet and spin wave theory | Ferro- and anti-ferro magnet and spin wave theory | Band magnetism | Band magnetism | Stoner theory | Stoner theory | spin density wave | spin density wave | Local moment in metals | Local moment in metals | Friedel sum rule | Friedel sum rule | Friedel-Anderson model | Friedel-Anderson model | Kondo problem | Kondo problem | Fermi liquid theory | Fermi liquid theory | Electron Green?s function | Electron Green?s function

License

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8.022 Physics II: Electricity and Magnetism (MIT) 8.022 Physics II: Electricity and Magnetism (MIT)

Description

This course runs parallel to 8.02, but assumes that students have some knowledge of vector calculus. The class introduces Maxwell's equations, in both differential and integral form, along with electrostatic and magnetic vector potential, and the properties of dielectrics and magnetic materials. This class was taught by an undergraduate in the Experimental Study Group (ESG). Student instructors are paired with ESG faculty members, who advise and oversee the students' teaching efforts. This course runs parallel to 8.02, but assumes that students have some knowledge of vector calculus. The class introduces Maxwell's equations, in both differential and integral form, along with electrostatic and magnetic vector potential, and the properties of dielectrics and magnetic materials. This class was taught by an undergraduate in the Experimental Study Group (ESG). Student instructors are paired with ESG faculty members, who advise and oversee the students' teaching efforts.

Subjects

Electricity | Electricity | Magnetism | Magnetism | Maxwell's equations | Maxwell's equations | electrostatic potential | electrostatic potential | vector potential | vector potential | dielectrics | dielectrics | Coulomb's Law | Coulomb's Law | Electric Field | Electric Field | Electric Flux | Electric Flux | Gauss's Law | Gauss's Law | Electric Potential Gradient | Electric Potential Gradient | Poisson Equations | Poisson Equations | Laplace Equations | Laplace Equations | Curl | Curl | Conductors | Conductors | Capacitance | Capacitance | Resistance | Resistance | Kirchhoff's Rules | Kirchhoff's Rules | EMF | EMF | RC Circuits | RC Circuits | Th?venin Equivalence | Th?venin Equivalence | Magnetic Force | Magnetic Force | Magnetic Field | Magnetic Field | Ampere's Law | Ampere's Law | Special Relativity | Special Relativity | Spacetime | Spacetime | Biot-Savart Law | Biot-Savart Law | Faraday's Law | Faraday's Law | Lenz's Law | Lenz's Law | RL Circuits | RL Circuits | AC Circuits | AC Circuits | Electromagnetic Radiation | Electromagnetic Radiation | Poynting Vector | Poynting Vector

License

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8.022 Physics II: Electricity and Magnetism (MIT) 8.022 Physics II: Electricity and Magnetism (MIT)

Description

Parallel to 8.02: Physics II, but more advanced mathematically. Some knowledge of vector calculus assumed. Maxwell's equations, in both differential and integral form. Electrostatic and magnetic vector potential. Properties of dielectrics and magnetic materials. In addition to the theoretical subject matter, several experiments in electricity and magnetism are performed by the students in the laboratory. Parallel to 8.02: Physics II, but more advanced mathematically. Some knowledge of vector calculus assumed. Maxwell's equations, in both differential and integral form. Electrostatic and magnetic vector potential. Properties of dielectrics and magnetic materials. In addition to the theoretical subject matter, several experiments in electricity and magnetism are performed by the students in the laboratory.

Subjects

Electricity | Electricity | Magnetism | Magnetism

License

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éticos y Transformadores éticos y Transformadores

Description

El presente curso es un curso básico de transformadores y circuitos magnéticos para estudiantes de ingeniería. Siempre que sea posible por la extensión del curso, se ha procurado que los conocimientos estén asentados sobre bases físicas sólidas, buscando su relación con la Física básica o con la Teoría de Circuitos. Sin embargo se ha procurado evitar aquellos aspectos teóricos que no contribuyen a aportar un conocimiento práctico. Además de ser un curso básico de transformadores, en muchos planes de estudio esta asignatura se imparte un cuatrimestre después de estudiar Teoría de Circuitos, de modo que esta asignatura es la puerta de entrada al mundo de la Ingeniería Eléctrica. El presente curso es un curso básico de transformadores y circuitos magnéticos para estudiantes de ingeniería. Siempre que sea posible por la extensión del curso, se ha procurado que los conocimientos estén asentados sobre bases físicas sólidas, buscando su relación con la Física básica o con la Teoría de Circuitos. Sin embargo se ha procurado evitar aquellos aspectos teóricos que no contribuyen a aportar un conocimiento práctico. Además de ser un curso básico de transformadores, en muchos planes de estudio esta asignatura se imparte un cuatrimestre después de estudiar Teoría de Circuitos, de modo que esta asignatura es la puerta de entrada al mundo de la Ingeniería Eléctrica.

Subjects

éctricos | éctricos | ía Eléctrica | ía Eléctrica | Índices horarios | Índices horarios | Magnetismo | Magnetismo | ásicos | ásicos | úcleo magnético | úcleo magnético | Transformadores de potencia | Transformadores de potencia | ón | ón | ía | ía | ón física transformadores | ón física transformadores | Electricidad | Electricidad | Potencia nominal | Potencia nominal | Sobrecargas | Sobrecargas | 2014 | 2014 | éticos | éticos | ída de tensión | ída de tensión | Circuito equivalente | Circuito equivalente | Potencia Reactiva | Potencia Reactiva | Rendimiento | Rendimiento | Arrollamientos | Arrollamientos | Programa | Programa | Ingenieria Electrica | Ingenieria Electrica | Cortocircuito | Cortocircuito | Aislamiento | Aislamiento | Autotransformadores | Autotransformadores | Magnitudes | Magnitudes | Inductancia | Inductancia

License

Copyright 2015, UC3M http://creativecommons.org/licenses/by-nc-sa/4.0/

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Física II Física II

Description

El temario de la asignatura de Física II tiene como objetivo sentar las bases de las leyes y principios de la Termodinámica y el Electromagnetismo. Se trata de una asignatura de carácter básico y aplicado dentro de la Física General centrada en la formación científico-técnica del alumno. En el caso de la Termodinámica se estudian el primer y segundo principios; mientras que en el caso del Electromagnetismo se discuten la Electrostática y la Magnetostática tanto en el vacío como en medios materiales, y se acaba tratando la Inducción y las Ecuaciones de Maxwell. El temario de la asignatura de Física II tiene como objetivo sentar las bases de las leyes y principios de la Termodinámica y el Electromagnetismo. Se trata de una asignatura de carácter básico y aplicado dentro de la Física General centrada en la formación científico-técnica del alumno. En el caso de la Termodinámica se estudian el primer y segundo principios; mientras que en el caso del Electromagnetismo se discuten la Electrostática y la Magnetostática tanto en el vacío como en medios materiales, y se acaba tratando la Inducción y las Ecuaciones de Maxwell.

Subjects

Rotacional | Rotacional | Gradiente | Gradiente | Electromagnetismo | Electromagnetismo | Magnetismo | Magnetismo | Termodinámica | Termodinámica | Divergencia | Divergencia | Electrostática | Electrostática | Física aplicada | Física aplicada

License

Copyright 2009, by the Contributing Authors http://creativecommons.org/licenses/by-nc-sa/3.0/

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8.512 Theory of Solids II (MIT) 8.512 Theory of Solids II (MIT)

Description

This is the second term of a theoretical treatment of the physics of solids. Topics covered include linear response theory; the physics of disorder; superconductivity; the local moment and itinerant magnetism; the Kondo problem and Fermi liquid theory. This is the second term of a theoretical treatment of the physics of solids. Topics covered include linear response theory; the physics of disorder; superconductivity; the local moment and itinerant magnetism; the Kondo problem and Fermi liquid theory.

Subjects

Linear response theory | Linear response theory | Fluctuation dissipation theorem | Fluctuation dissipation theorem | Scattering experiment | Scattering experiment | f-sum rule | f-sum rule | Physics of disorder | Physics of disorder | Kubo formula for conductivity | Kubo formula for conductivity | Conductance and sensitivity to boundary conditions | Conductance and sensitivity to boundary conditions | Scaling theory of localization | Scaling theory of localization | Mott variable range hopping | Mott variable range hopping | Superconductor | Superconductor | Transverse response | Transverse response | Landau diamagnetism | Landau diamagnetism | Microscopic derivation of London equation | Microscopic derivation of London equation | Effect of disorder | Effect of disorder | Quasiparticles and coherence factors | Quasiparticles and coherence factors | Tunneling and Josephson effect | Tunneling and Josephson effect | Magnetism | Magnetism | Local moment magnetism | Local moment magnetism | exchange interaction | exchange interaction | Ferro- and anti-ferro magnet and spin wave theory | Ferro- and anti-ferro magnet and spin wave theory | Band magnetism | Band magnetism | Stoner theory | Stoner theory | spin density wave | spin density wave | Local moment in metals | Local moment in metals | Friedel sum rule | Friedel sum rule | Friedel-Anderson model | Friedel-Anderson model | Kondo problem | Kondo problem | Fermi liquid theory | Fermi liquid theory | Electron Green?s function | Electron Green?s function

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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ísica II ísica II

Description

Subjects

Sistema de unidades | Sistema de unidades | éctrico | éctrico | Fuerza de Lorentz | Fuerza de Lorentz | Campo de ruptura | Campo de ruptura | éctrica | éctrica | Densidad de corriente | Densidad de corriente | Ley de Gauss | Ley de Gauss | ía potencial | ía potencial | éctricos | éctricos | ón | ón | ático | ático | Fuerzas conservativas | Fuerzas conservativas | éctrico de una carga puntual | éctrico de una carga puntual | ón de la trayectoria | ón de la trayectoria | Diferencia de potencial | Diferencia de potencial | ísica Aplicada | ísica Aplicada | Trabajo | Trabajo | ético atómico | ético atómico | ática | ática | ía | ía | Fisica Aplicada | Fisica Aplicada | éticos | éticos | ética sobre corrientes | ética sobre corrientes | Distribuciones continuas de carga | Distribuciones continuas de carga | ísica Teórica | ísica Teórica | Magnetismo en la materia | Magnetismo en la materia | fuerza | fuerza | Densidades de carga | Densidades de carga | Resistencia | Resistencia | Inductancia mutua | Inductancia mutua | Movimiento circular | Movimiento circular | éticas | éticas | ética | ética | Ley de Biot y Savart | Ley de Biot y Savart | ético | ético | Concepto | Concepto | momento lineal | momento lineal | Condensadores | Condensadores | Ley de Ampere | Ley de Ampere | Ley de Lenz | Ley de Lenz | Elemento de corriente | Elemento de corriente | Autoinductancia | Autoinductancia | Ley de Ohm | Ley de Ohm | Momento angular | Momento angular | Ley de Coulomb | Ley de Coulomb | ámica de una partícula | ámica de una partícula | Momentos de fuerza sobre espiras de corriente e imanes | Momentos de fuerza sobre espiras de corriente e imanes | Fisica Teorica | Fisica Teorica | ía magnética | ía magnética | Conductores y aislantes | Conductores y aislantes | ón de Faraday | ón de Faraday | Intensidad | Intensidad | Leyes de Newton | Leyes de Newton | momento de las fuerzas | momento de las fuerzas | Fuerzas entre corrientes | Fuerzas entre corrientes | íneas de campo eléctrico | íneas de campo eléctrico | Potencia | Potencia

License

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8.022 Physics II: Electricity and Magnetism (MIT)

Description

Course 8.022 is one of several second-term freshman physics courses offered at MIT. It is geared towards students who are looking for a thorough and challenging introduction to electricity and magnetism. Topics covered include: Electric and magnetic field and potential; introduction to special relativity; Maxwell's equations, in both differential and integral form; and properties of dielectrics and magnetic materials. In addition to the theoretical subject matter, several experiments in electricity and magnetism are performed by the students in the laboratory. Acknowledgments Prof. Sciolla would like to acknowledge the contributions of MIT Professors Scott Hughes and Peter Fisher to the development of this course. She would also like to acknowledge that these course materials include cont

Subjects

Electricity | Magnetism | Maxwell's equations | electrostatic potential | vector potential | dielectrics | Coulomb's Law | Electric Field | Electric Flux | Gauss's Law | Electric Potential Gradient | Poisson Equations | Laplace Equations | Curl | Conductors | Capacitance | Resistance | Kirchhoff's Rules | EMF | RC Circuits | Th?venin Equivalence | Magnetic Force | Magnetic Field | Ampere's Law | Special Relativity | Spacetime | Biot-Savart Law | Faraday's Law | Lenz's Law | RL Circuits | AC Circuits | Electromagnetic Radiation | Poynting Vector | Magnetism | Maxwell's equations;

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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8.512 Theory of Solids II (MIT)

Description

This is the second term of a theoretical treatment of the physics of solids. Topics covered include linear response theory; the physics of disorder; superconductivity; the local moment and itinerant magnetism; the Kondo problem and Fermi liquid theory.

Subjects

Linear response theory | Fluctuation dissipation theorem | Scattering experiment | f-sum rule | Physics of disorder | Kubo formula for conductivity | Conductance and sensitivity to boundary conditions | Scaling theory of localization | Mott variable range hopping | Superconductor | Transverse response | Landau diamagnetism | Microscopic derivation of London equation | Effect of disorder | Quasiparticles and coherence factors | Tunneling and Josephson effect | Magnetism | Local moment magnetism | exchange interaction | Ferro- and anti-ferro magnet and spin wave theory | Band magnetism | Stoner theory | spin density wave | Local moment in metals | Friedel sum rule | Friedel-Anderson model | Kondo problem | Fermi liquid theory | Electron Green?s function

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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8.022 Physics II: Electricity and Magnetism (MIT)

Description

This course runs parallel to 8.02, but assumes that students have some knowledge of vector calculus. The class introduces Maxwell's equations, in both differential and integral form, along with electrostatic and magnetic vector potential, and the properties of dielectrics and magnetic materials. This class was taught by an undergraduate in the Experimental Study Group (ESG). Student instructors are paired with ESG faculty members, who advise and oversee the students' teaching efforts.

Subjects

Electricity | Magnetism | Maxwell's equations | electrostatic potential | vector potential | dielectrics | Coulomb's Law | Electric Field | Electric Flux | Gauss's Law | Electric Potential Gradient | Poisson Equations | Laplace Equations | Curl | Conductors | Capacitance | Resistance | Kirchhoff's Rules | EMF | RC Circuits | Th?venin Equivalence | Magnetic Force | Magnetic Field | Ampere's Law | Special Relativity | Spacetime | Biot-Savart Law | Faraday's Law | Lenz's Law | RL Circuits | AC Circuits | Electromagnetic Radiation | Poynting Vector

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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8.022 Physics II: Electricity and Magnetism (MIT)

Description

Parallel to 8.02: Physics II, but more advanced mathematically. Some knowledge of vector calculus assumed. Maxwell's equations, in both differential and integral form. Electrostatic and magnetic vector potential. Properties of dielectrics and magnetic materials. In addition to the theoretical subject matter, several experiments in electricity and magnetism are performed by the students in the laboratory.

Subjects

Electricity | Magnetism

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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8.512 Theory of Solids II (MIT)

Description

This is the second term of a theoretical treatment of the physics of solids. Topics covered include linear response theory; the physics of disorder; superconductivity; the local moment and itinerant magnetism; the Kondo problem and Fermi liquid theory.

Subjects

Linear response theory | Fluctuation dissipation theorem | Scattering experiment | f-sum rule | Physics of disorder | Kubo formula for conductivity | Conductance and sensitivity to boundary conditions | Scaling theory of localization | Mott variable range hopping | Superconductor | Transverse response | Landau diamagnetism | Microscopic derivation of London equation | Effect of disorder | Quasiparticles and coherence factors | Tunneling and Josephson effect | Magnetism | Local moment magnetism | exchange interaction | Ferro- and anti-ferro magnet and spin wave theory | Band magnetism | Stoner theory | spin density wave | Local moment in metals | Friedel sum rule | Friedel-Anderson model | Kondo problem | Fermi liquid theory | Electron Green?s function

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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8.022 Physics II: Electricity and Magnetism (MIT)

Description

This course runs parallel to 8.02, but assumes that students have some knowledge of vector calculus. The class introduces Maxwell's equations, in both differential and integral form, along with electrostatic and magnetic vector potential, and the properties of dielectrics and magnetic materials. This class was taught by an undergraduate in the Experimental Study Group (ESG). Student instructors are paired with ESG faculty members, who advise and oversee the students' teaching efforts.

Subjects

Electricity | Magnetism | Maxwell's equations | electrostatic potential | vector potential | dielectrics | Coulomb's Law | Electric Field | Electric Flux | Gauss's Law | Electric Potential Gradient | Poisson Equations | Laplace Equations | Curl | Conductors | Capacitance | Resistance | Kirchhoff's Rules | EMF | RC Circuits | Th?venin Equivalence | Magnetic Force | Magnetic Field | Ampere's Law | Special Relativity | Spacetime | Biot-Savart Law | Faraday's Law | Lenz's Law | RL Circuits | AC Circuits | Electromagnetic Radiation | Poynting Vector

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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8.022 Physics II: Electricity and Magnetism (MIT)

Description

Parallel to 8.02: Physics II, but more advanced mathematically. Some knowledge of vector calculus assumed. Maxwell's equations, in both differential and integral form. Electrostatic and magnetic vector potential. Properties of dielectrics and magnetic materials. In addition to the theoretical subject matter, several experiments in electricity and magnetism are performed by the students in the laboratory.

Subjects

Electricity | Magnetism

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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