RSS Feed for ferromagnetism https://solvonauts.org/%3Faction%3Drss_search%26term%3Dferromagnetism RSS Feed for ferromagnetism Magnetic Materials and Devices (MIT) Magnetic Materials and Devices (MIT) This course explores the relationships which exist between the performance of electrical optical and magnetic devices and the microstructural characteristics of the materials from which they are constructed It features a device motivated approach which places strong emphasis on emerging technologies Device applications of physical phenomena are considered including electrical conductivity and doping transistors photodetectors and photovoltaics luminescence light emitting diodes lasers optical phenomena photonics ferromagnetism and magnetoresistance This course explores the relationships which exist between the performance of electrical optical and magnetic devices and the microstructural characteristics of the materials from which they are constructed It features a device motivated approach which places strong emphasis on emerging technologies Device applications of physical phenomena are considered including electrical conductivity and doping transistors photodetectors and photovoltaics luminescence light emitting diodes lasers optical phenomena photonics ferromagnetism and magnetoresistance http://dspace.mit.edu/handle/1721.1/39821 http://dspace.mit.edu/handle/1721.1/39821 Magnetic Materials and Devices (MIT) Magnetic Materials and Devices (MIT) This course explores the relationships which exist between the performance of electrical optical and magnetic devices and the microstructural characteristics of the materials from which they are constructed The class uses a device motivated approach which emphasizes emerging technologies Device applications of physical phenomena are considered including electrical conductivity and doping transistors photodetectors and photovoltaics luminescence light emitting diodes lasers optical phenomena photonics ferromagnetism and magnetoresistance This course explores the relationships which exist between the performance of electrical optical and magnetic devices and the microstructural characteristics of the materials from which they are constructed The class uses a device motivated approach which emphasizes emerging technologies Device applications of physical phenomena are considered including electrical conductivity and doping transistors photodetectors and photovoltaics luminescence light emitting diodes lasers optical phenomena photonics ferromagnetism and magnetoresistance http://ocw.mit.edu/courses/materials-science-and-engineering/3-15-electrical-optical-magnetic-materials-and-devices-fall-2006 http://ocw.mit.edu/courses/materials-science-and-engineering/3-15-electrical-optical-magnetic-materials-and-devices-fall-2006 3.014 Materials Laboratory (MIT) 3.014 Materials Laboratory (MIT) This course is a required sophomore subject in the Department of Materials Science and Engineering designed to be taken in conjunction with the core lecture subject 3 012 Fundamentals of Materials Science and Engineering The laboratory subject combines experiments illustrating the principles of quantum mechanics thermodynamics and structure with intensive oral and written technical communication practice Specific topics include experimental exploration of the connections between energetics bonding and structure of materials and application of these principles in instruments for materials characterization demonstration of the wave like nature of electrons hands on experience with techniques to quantify energy DSC bonding XPS AES FTIR UV Vis and force spectroscopy and degre This course is a required sophomore subject in the Department of Materials Science and Engineering designed to be taken in conjunction with the core lecture subject 3 012 Fundamentals of Materials Science and Engineering The laboratory subject combines experiments illustrating the principles of quantum mechanics thermodynamics and structure with intensive oral and written technical communication practice Specific topics include experimental exploration of the connections between energetics bonding and structure of materials and application of these principles in instruments for materials characterization demonstration of the wave like nature of electrons hands on experience with techniques to quantify energy DSC bonding XPS AES FTIR UV Vis and force spectroscopy and degre http://dspace.mit.edu/handle/1721.1/41885 http://dspace.mit.edu/handle/1721.1/41885 3.014 Materials Laboratory (MIT) 3.014 Materials Laboratory (MIT) This course is a required sophomore subject in the Department of Materials Science and Engineering designed to be taken in conjunction with the core lecture subject 3 012 Fundamentals of Materials Science and Engineering The laboratory subject combines experiments illustrating the principles of quantum mechanics thermodynamics and structure with intensive oral and written technical communication practice Specific topics include experimental exploration of the connections between energetics bonding and structure of materials and application of these principles in instruments for materials characterization demonstration of the wave like nature of electrons hands on experience with techniques to quantify energy DSC bonding XPS AES FTIR UV Vis and force spectroscopy and degre This course is a required sophomore subject in the Department of Materials Science and Engineering designed to be taken in conjunction with the core lecture subject 3 012 Fundamentals of Materials Science and Engineering The laboratory subject combines experiments illustrating the principles of quantum mechanics thermodynamics and structure with intensive oral and written technical communication practice Specific topics include experimental exploration of the connections between energetics bonding and structure of materials and application of these principles in instruments for materials characterization demonstration of the wave like nature of electrons hands on experience with techniques to quantify energy DSC bonding XPS AES FTIR UV Vis and force spectroscopy and degre http://ocw.mit.edu/courses/materials-science-and-engineering/3-014-materials-laboratory-fall-2006 http://ocw.mit.edu/courses/materials-science-and-engineering/3-014-materials-laboratory-fall-2006 3.A08 Attraction and Repulsion: The Magic of Magnets (MIT) 3.A08 Attraction and Repulsion: The Magic of Magnets (MIT) This Freshman Advising Seminar surveys the many applications of magnets and magnetism To the Chinese and Greeks of ancient times the attractive and repulsive forces between magnets must have seemed magical indeed Through the ages miraculous curative powers have been attributed to magnets and magnets have been used by illusionists to produce magical effects Magnets guided ships in the Age of Exploration and generated the electrical industry in the 19th century Today they store information and entertainment on disks and tapes and produce sound in speakers images on TV screens rotation in motors and levitation in high speed trains Students visit various MIT projects related to magnets including superconducting electromagnets and read about and discuss the history legends p This Freshman Advising Seminar surveys the many applications of magnets and magnetism To the Chinese and Greeks of ancient times the attractive and repulsive forces between magnets must have seemed magical indeed Through the ages miraculous curative powers have been attributed to magnets and magnets have been used by illusionists to produce magical effects Magnets guided ships in the Age of Exploration and generated the electrical industry in the 19th century Today they store information and entertainment on disks and tapes and produce sound in speakers images on TV screens rotation in motors and levitation in high speed trains Students visit various MIT projects related to magnets including superconducting electromagnets and read about and discuss the history legends p http://ocw.mit.edu/courses/materials-science-and-engineering/3-a08-attraction-and-repulsion-the-magic-of-magnets-fall-2005 http://ocw.mit.edu/courses/materials-science-and-engineering/3-a08-attraction-and-repulsion-the-magic-of-magnets-fall-2005 Magnetic Materials and Devices (MIT) This course explores the relationships which exist between the performance of electrical optical and magnetic devices and the microstructural characteristics of the materials from which they are constructed The class uses a device motivated approach which emphasizes emerging technologies Device applications of physical phenomena are considered including electrical conductivity and doping transistors photodetectors and photovoltaics luminescence light emitting diodes lasers optical phenomena photonics ferromagnetism and magnetoresistance http://www.core.org.cn/OcwWeb/Materials-Science-and-Engineering/3-15Fall2003/CourseHome/index.htm http://www.core.org.cn/OcwWeb/Materials-Science-and-Engineering/3-15Fall2003/CourseHome/index.htm Magnetic Materials and Devices (MIT) This course explores the relationships which exist between the performance of electrical optical and magnetic devices and the microstructural characteristics of the materials from which they are constructed It features a device motivated approach which places strong emphasis on emerging technologies Device applications of physical phenomena are considered including electrical conductivity and doping transistors photodetectors and photovoltaics luminescence light emitting diodes lasers optical phenomena photonics ferromagnetism and magnetoresistance https://dspace.mit.edu/handle/1721.1/39821 https://dspace.mit.edu/handle/1721.1/39821 Magnetic Materials and Devices (MIT) This course explores the relationships which exist between the performance of electrical optical and magnetic devices and the microstructural characteristics of the materials from which they are constructed The class uses a device motivated approach which emphasizes emerging technologies Device applications of physical phenomena are considered including electrical conductivity and doping transistors photodetectors and photovoltaics luminescence light emitting diodes lasers optical phenomena photonics ferromagnetism and magnetoresistance https://ocw.mit.edu/courses/materials-science-and-engineering/3-15-electrical-optical-magnetic-materials-and-devices-fall-2006 https://ocw.mit.edu/courses/materials-science-and-engineering/3-15-electrical-optical-magnetic-materials-and-devices-fall-2006 Enhancing Physics Knowledge for Teaching – Magnetic materials In this session we are going to study some of the properties of magnetic materials http://dspace.jorum.ac.uk/xmlui/handle/10949/2974 http://dspace.jorum.ac.uk/xmlui/handle/10949/2974 3.014 Materials Laboratory (MIT) This course is a required sophomore subject in the Department of Materials Science and Engineering designed to be taken in conjunction with the core lecture subject 3 012 Fundamentals of Materials Science and Engineering The laboratory subject combines experiments illustrating the principles of quantum mechanics thermodynamics and structure with intensive oral and written technical communication practice Specific topics include experimental exploration of the connections between energetics bonding and structure of materials and application of these principles in instruments for materials characterization demonstration of the wave like nature of electrons hands on experience with techniques to quantify energy DSC bonding XPS AES FTIR UV Vis and force spectroscopy and degre https://dspace.mit.edu/handle/1721.1/41885 https://dspace.mit.edu/handle/1721.1/41885 3.014 Materials Laboratory (MIT) This course is a required sophomore subject in the Department of Materials Science and Engineering designed to be taken in conjunction with the core lecture subject 3 012 Fundamentals of Materials Science and Engineering The laboratory subject combines experiments illustrating the principles of quantum mechanics thermodynamics and structure with intensive oral and written technical communication practice Specific topics include experimental exploration of the connections between energetics bonding and structure of materials and application of these principles in instruments for materials characterization demonstration of the wave like nature of electrons hands on experience with techniques to quantify energy DSC bonding XPS AES FTIR UV Vis and force spectroscopy and degre https://ocw.mit.edu/courses/materials-science-and-engineering/3-014-materials-laboratory-fall-2006 https://ocw.mit.edu/courses/materials-science-and-engineering/3-014-materials-laboratory-fall-2006 3.A08 Attraction and Repulsion: The Magic of Magnets (MIT) This Freshman Advising Seminar surveys the many applications of magnets and magnetism To the Chinese and Greeks of ancient times the attractive and repulsive forces between magnets must have seemed magical indeed Through the ages miraculous curative powers have been attributed to magnets and magnets have been used by illusionists to produce magical effects Magnets guided ships in the Age of Exploration and generated the electrical industry in the 19th century Today they store information and entertainment on disks and tapes and produce sound in speakers images on TV screens rotation in motors and levitation in high speed trains Students visit various MIT projects related to magnets including superconducting electromagnets and read about and discuss the history legends p https://ocw.mit.edu/courses/materials-science-and-engineering/3-a08-attraction-and-repulsion-the-magic-of-magnets-fall-2005 https://ocw.mit.edu/courses/materials-science-and-engineering/3-a08-attraction-and-repulsion-the-magic-of-magnets-fall-2005