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22.55J Principles of Radiation Interactions (MIT) 22.55J Principles of Radiation Interactions (MIT)

Description

The central theme of this course is the interaction of radiation with biological material. The course is intended to provide a broad understanding of how different types of radiation deposit energy, including the creation and behavior of secondary radiations; of how radiation affects cells and why the different types of radiation have very different biological effects. Topics will include: the effects of radiation on biological systems including DNA damage; in vitro cell survival models; and in vivo mammalian systems. The course covers radiation therapy, radiation syndromes in humans and carcinogenesis. Environmental radiation sources on earth and in space, and aspects of radiation protection are also discussed. Examples from the current literature will be used to supplement lecture materi The central theme of this course is the interaction of radiation with biological material. The course is intended to provide a broad understanding of how different types of radiation deposit energy, including the creation and behavior of secondary radiations; of how radiation affects cells and why the different types of radiation have very different biological effects. Topics will include: the effects of radiation on biological systems including DNA damage; in vitro cell survival models; and in vivo mammalian systems. The course covers radiation therapy, radiation syndromes in humans and carcinogenesis. Environmental radiation sources on earth and in space, and aspects of radiation protection are also discussed. Examples from the current literature will be used to supplement lecture materi

Subjects

Interaction of radiation with biological material | Interaction of radiation with biological material | how different types of radiation deposit energy | how different types of radiation deposit energy | secondary radiations | secondary radiations | how radiation affects cells | how radiation affects cells | biological effects | biological effects | effects of radiation on biological systems | effects of radiation on biological systems | DNA damage | DNA damage | in vitro cell survival models | in vitro cell survival models | in vivo mammalian systems | in vivo mammalian systems | radiation therapy | radiation therapy | radiation syndromes in humans | radiation syndromes in humans | carcinogenesis | carcinogenesis | Environmental radiation sources | Environmental radiation sources | radiation protection | radiation protection | cells | cells | tissues | tissues | radiation interactions | radiation interactions | radiation chemistry | radiation chemistry | LET | LET | tracks | tracks | chromosome damags | chromosome damags | in vivo | in vivo | in vitro | in vitro | cell survival curves | cell survival curves | dose response | dose response | RBE | RBE | clustered damage | clustered damage | radiation response | radiation response | tumor kinetics | tumor kinetics | tumor radiobiology | tumor radiobiology | fractionation | fractionation | protons | protons | alpha particles | alpha particles | whole body exposure | whole body exposure | chronic exposure | chronic exposure | space | space | microbeams | microbeams | radon | radon | background radiation | background radiation | 22.55 | 22.55 | HST.560 | HST.560

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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22.01 Introduction to Ionizing Radiation (MIT) 22.01 Introduction to Ionizing Radiation (MIT)

Description

This course is an introduction to basic properties of ionizing radiations and their uses in medicine, industry, science, and environmental studies. Discusses natural and man-made radiation sources, energy deposition and dose calculations, various physical, chemical, and biological processes and effects of radiation with examples of their uses, and principles of radiation protection. Term paper and oral presentation of paper required.This course was originally developed by Dr. Jacquelyn Yanch.  As such, significant portions of the materials presented here were derived from her work. This course is an introduction to basic properties of ionizing radiations and their uses in medicine, industry, science, and environmental studies. Discusses natural and man-made radiation sources, energy deposition and dose calculations, various physical, chemical, and biological processes and effects of radiation with examples of their uses, and principles of radiation protection. Term paper and oral presentation of paper required.This course was originally developed by Dr. Jacquelyn Yanch.  As such, significant portions of the materials presented here were derived from her work.

Subjects

ionizing radiations | ionizing radiations | radiation sources | radiation sources | energy deposition | energy deposition | dose calculations | dose calculations | principles of radiation protection | principles of radiation protection | ionizing | ionizing | radiation | radiation | medicine | medicine | industry | industry | science | science | environmental studies | environmental studies | natural radiation sources | natural radiation sources | man-made radiation | man-made radiation | radiation protection | radiation protection | material interaction | material interaction | biological material | biological material | radiation therapy | radiation therapy | medical imaging | medical imaging | non-destructive evaluation | non-destructive evaluation | food irradiation | food irradiation | radionuclide dating | radionuclide dating | well-logging | well-logging

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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22.01 Introduction to Ionizing Radiation (MIT) 22.01 Introduction to Ionizing Radiation (MIT)

Description

This course provides an introduction to the basic properties of ionizing radiations and their uses in medicine, industry, science, and environmental studies. We will discuss natural and man-made radiation sources, energy deposition and dose calculations, and various physical, chemical, and biological processes and effects of radiation, with examples of their uses, and principles of radiation protection. This course provides an introduction to the basic properties of ionizing radiations and their uses in medicine, industry, science, and environmental studies. We will discuss natural and man-made radiation sources, energy deposition and dose calculations, and various physical, chemical, and biological processes and effects of radiation, with examples of their uses, and principles of radiation protection.

Subjects

ionizing radiation | ionizing radiation | natural radiation | natural radiation | man-made radiation | man-made radiation | energy deposition | energy deposition | dose calculations | dose calculations | radiation protection | radiation protection | radiation damage | radiation damage | DNA | DNA | cell survival curves | cell survival curves | radioactive decay | radioactive decay | beta decay | beta decay | gamma decay | gamma decay | radiological dating | radiological dating | radiation interactions | radiation interactions | radon | radon | medical imaging | medical imaging

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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22.01 Introduction to Ionizing Radiation (MIT) 22.01 Introduction to Ionizing Radiation (MIT)

Description

This course provides an introduction to the basic properties of ionizing radiations and their uses in medicine, industry, science, and environmental studies. We will discuss natural and man-made radiation sources, energy deposition and dose calculations, and various physical, chemical, and biological processes and effects of radiation, with examples of their uses, and principles of radiation protection. This course provides an introduction to the basic properties of ionizing radiations and their uses in medicine, industry, science, and environmental studies. We will discuss natural and man-made radiation sources, energy deposition and dose calculations, and various physical, chemical, and biological processes and effects of radiation, with examples of their uses, and principles of radiation protection.

Subjects

ionizing radiation | ionizing radiation | natural radiation | natural radiation | man-made radiation | man-made radiation | energy deposition | energy deposition | dose calculations | dose calculations | radiation protection | radiation protection | radiation damage | radiation damage | DNA | DNA | cell survival curves | cell survival curves | radioactive decay | radioactive decay | beta decay | beta decay | gamma decay | gamma decay | radiological dating | radiological dating | radiation interactions | radiation interactions | radon | radon | medical imaging | medical imaging

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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22.01 Introduction to Nuclear Engineering and Ionizing Radiation (MIT) 22.01 Introduction to Nuclear Engineering and Ionizing Radiation (MIT)

Description

This course provides an introduction to nuclear science and its engineering applications. It describes basic nuclear models, radioactivity, nuclear reactions and kinematics; covers the interaction of ionizing radiation with matter, with an emphasis on radiation detection, radiation shielding, and radiation effects on human health; and presents energy systems based on fission and fusion nuclear reactions, as well as industrial and medical applications of nuclear science. This course provides an introduction to nuclear science and its engineering applications. It describes basic nuclear models, radioactivity, nuclear reactions and kinematics; covers the interaction of ionizing radiation with matter, with an emphasis on radiation detection, radiation shielding, and radiation effects on human health; and presents energy systems based on fission and fusion nuclear reactions, as well as industrial and medical applications of nuclear science.

Subjects

ionizing radiation | ionizing radiation | natural radiation | natural radiation | half-life | half-life | radioactive decay | radioactive decay | dose calculation | dose calculation | radiation protection | radiation protection | radiation shielding | radiation shielding | hormesis | hormesis | nuclear power | nuclear power | nuclear energy | nuclear energy | biological effects of radiation | biological effects of radiation | food irradiation | food irradiation | radiation risk | radiation risk | radioactive dating | radioactive dating

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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22.55J Principles of Radiation Interactions (MIT)

Description

The central theme of this course is the interaction of radiation with biological material. The course is intended to provide a broad understanding of how different types of radiation deposit energy, including the creation and behavior of secondary radiations; of how radiation affects cells and why the different types of radiation have very different biological effects. Topics will include: the effects of radiation on biological systems including DNA damage; in vitro cell survival models; and in vivo mammalian systems. The course covers radiation therapy, radiation syndromes in humans and carcinogenesis. Environmental radiation sources on earth and in space, and aspects of radiation protection are also discussed. Examples from the current literature will be used to supplement lecture materi

Subjects

Interaction of radiation with biological material | how different types of radiation deposit energy | secondary radiations | how radiation affects cells | biological effects | effects of radiation on biological systems | DNA damage | in vitro cell survival models | in vivo mammalian systems | radiation therapy | radiation syndromes in humans | carcinogenesis | Environmental radiation sources | radiation protection | cells | tissues | radiation interactions | radiation chemistry | LET | tracks | chromosome damags | in vivo | in vitro | cell survival curves | dose response | RBE | clustered damage | radiation response | tumor kinetics | tumor radiobiology | fractionation | protons | alpha particles | whole body exposure | chronic exposure | space | microbeams | radon | background radiation | 22.55 | HST.560

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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Readme 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 | I100

License

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/

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22.55J Principles of Radiation Interactions (MIT)

Description

The central theme of this course is the interaction of radiation with biological material. The course is intended to provide a broad understanding of how different types of radiation deposit energy, including the creation and behavior of secondary radiations; of how radiation affects cells and why the different types of radiation have very different biological effects. Topics will include: the effects of radiation on biological systems including DNA damage; in vitro cell survival models; and in vivo mammalian systems. The course covers radiation therapy, radiation syndromes in humans and carcinogenesis. Environmental radiation sources on earth and in space, and aspects of radiation protection are also discussed. Examples from the current literature will be used to supplement lecture materi

Subjects

Interaction of radiation with biological material | how different types of radiation deposit energy | secondary radiations | how radiation affects cells | biological effects | effects of radiation on biological systems | DNA damage | in vitro cell survival models | in vivo mammalian systems | radiation therapy | radiation syndromes in humans | carcinogenesis | Environmental radiation sources | radiation protection | cells | tissues | radiation interactions | radiation chemistry | LET | tracks | chromosome damags | in vivo | in vitro | cell survival curves | dose response | RBE | clustered damage | radiation response | tumor kinetics | tumor radiobiology | fractionation | protons | alpha particles | whole body exposure | chronic exposure | space | microbeams | radon | background radiation | 22.55 | HST.560

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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22.14 Materials in Nuclear Engineering (MIT) 22.14 Materials in Nuclear Engineering (MIT)

Description

In this course, we will lay the foundation for understanding how materials behave in nuclear systems. In particular, we will build on a solid base of nuclear material fundamentals in order to understand radiation damage and effects in fuels and structural materials. This course consists of a series of directed readings, lectures on video, problem sets, short research projects, and class discussions with worked examples. We will start with an overview of nuclear materials, where they are found in nuclear systems, and how they fail. We will then develop the formalism in crystallography as a common language for materials scientists everywhere. This will be followed by the development of phase diagrams from thermodynamics, which predict how binary alloy systems evolve towards equilibrium. Then In this course, we will lay the foundation for understanding how materials behave in nuclear systems. In particular, we will build on a solid base of nuclear material fundamentals in order to understand radiation damage and effects in fuels and structural materials. This course consists of a series of directed readings, lectures on video, problem sets, short research projects, and class discussions with worked examples. We will start with an overview of nuclear materials, where they are found in nuclear systems, and how they fail. We will then develop the formalism in crystallography as a common language for materials scientists everywhere. This will be followed by the development of phase diagrams from thermodynamics, which predict how binary alloy systems evolve towards equilibrium. Then

Subjects

radiation materials science | radiation materials science | radiation damage to materials | radiation damage to materials | radiation induced segregation | radiation induced segregation | void swelling | void swelling | radiation induced hardening | radiation induced hardening | radiation induced embrittlement | radiation induced embrittlement | nuclear power plant | nuclear power plant | phase diagram | phase diagram | defects | defects | deformation | deformation | radiation effects | radiation effects | irradiation | irradiation

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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12.091 Radon Research in Multidisciplines: A Review (MIT) 12.091 Radon Research in Multidisciplines: A Review (MIT)

Description

This course introduces fundamentals of radon physics, geology, radiation biology; provides hands on experience of measurement of radon in MIT environments, and discusses current radon research in the fields of geology, environment, building and construction, medicine and health physics. The course is offered during the Independent Activities Period (IAP), which is a special 4-week term at MIT that runs from the first week of January until the end of the month. This course introduces fundamentals of radon physics, geology, radiation biology; provides hands on experience of measurement of radon in MIT environments, and discusses current radon research in the fields of geology, environment, building and construction, medicine and health physics. The course is offered during the Independent Activities Period (IAP), which is a special 4-week term at MIT that runs from the first week of January until the end of the month.

Subjects

fieldwork | fieldwork | laboratory science | laboratory science | radon | radon | radiation physics | radiation physics | ions | ions | ionizing radiation | ionizing radiation | radon decay | radon decay | radon geology | radon geology | environmental research | environmental research | medicine | medicine | medical research | medical research | radiation health physics | radiation health physics | planetary sciences | planetary sciences | radon research | radon research

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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14.581 International Economics I (MIT) 14.581 International Economics I (MIT)

Description

This course covers, with a focus on both theory and empirics, advanced topics in international trade (as well as inter-regional trade and economic geography). It includes the study of positive issues, such as: Why do countries trade? What goods do countries trade? What are the implications of openness for the location of production, industries, occupations, and innovative activity? And, what impedes trade and why do some countries deliberately erect policy impediments to trade? The course also concerns normative issues, such as: Is trade openness beneficial to a representative agent? And, Are there winners and losers from trade and if so, can we identify them? Throughout, these issues are approached in neoclassical settings as well as those with market failures, at the industry-level as we This course covers, with a focus on both theory and empirics, advanced topics in international trade (as well as inter-regional trade and economic geography). It includes the study of positive issues, such as: Why do countries trade? What goods do countries trade? What are the implications of openness for the location of production, industries, occupations, and innovative activity? And, what impedes trade and why do some countries deliberately erect policy impediments to trade? The course also concerns normative issues, such as: Is trade openness beneficial to a representative agent? And, Are there winners and losers from trade and if so, can we identify them? Throughout, these issues are approached in neoclassical settings as well as those with market failures, at the industry-level as we

Subjects

international economics | international economics | international trade | international trade | Ricardian model | Ricardian model | law of comparative advantage | law of comparative advantage | Ricardo-Viner model | Ricardo-Viner model | Heckscher-Ohlin model | Heckscher-Ohlin model | neoclassical trade theories | neoclassical trade theories | monopolistic competition | monopolistic competition | trade theory | trade theory | firm-level heterogeneity | firm-level heterogeneity | foreign investment | foreign investment | gravity models | gravity models | trade and growth | trade and growth | labor markets | labor markets | offshoring | offshoring | fragmentation of production | fragmentation of production | multinational firms | multinational firms | political economy | political economy | WTO | WTO | world trade organization | world trade organization | dynamic trade theory | dynamic trade theory | neoclassical growth | neoclassical growth | technology and growth | technology and growth | innovation | innovation | technology transfer | technology transfer | product cycles | product cycles | tariff retaliation | tariff retaliation | regionalism | regionalism

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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B0064P0014

Description

A ventrodorsal radiograph of a cat presenting with head trauma

Subjects

svmsvet | cat | head | trauma | cats | feline | felines | face | headtrauma | rta | roadtrafficaccident | catheadtrauma | felineheadtrauma | facialtrauma | catfacialtrauma | headinjury | facialinjury | felineheadinjury | felinefacialinjury | rtainvestigation | rtaassessment | b0064 | jaw | mandible | malocclusion | jawinjury | jawmalocclusion | jawmalalignment | mandibulartrauma | catjawtrauma | fracture | jawfracture | mandibularfracture | brokenjaw | catjawfracture | catbrokenjaw | catmandibularfracture | radiography | skull | xray | radiographicpositioning | headradiography | cranialradiography | radiographs | radiograph | mandibulrradiograph | craniocaudalradiograph | headradiograph | catradiograph | catskullradiograph

License

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B0064P0013

Description

A lateral radiograph of a cat presenting with head trauma

Subjects

svmsvet | cat | head | trauma | cats | feline | felines | face | headtrauma | rta | roadtrafficaccident | catheadtrauma | felineheadtrauma | facialtrauma | catfacialtrauma | headinjury | facialinjury | felineheadinjury | felinefacialinjury | rtainvestigation | rtaassessment | b0064 | jaw | mandible | malocclusion | jawinjury | jawmalocclusion | jawmalalignment | mandibulartrauma | catjawtrauma | fracture | jawfracture | mandibularfracture | brokenjaw | catjawfracture | catbrokenjaw | catmandibularfracture | radiography | skull | xray | radiographicpositioning | headradiography | cranialradiography | radiographs | radiograph | mandibulrradiograph | lateralradiograph | headradiograph | catradiograph | catskullradiograph

License

http://creativecommons.org/licenses/by-nc-sa/2.0/

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B0064P0014

Description

A ventrodorsal radiograph of a cat presenting with head trauma

Subjects

svmsvet | cat | head | trauma | cats | feline | felines | face | headtrauma | rta | roadtrafficaccident | catheadtrauma | felineheadtrauma | facialtrauma | catfacialtrauma | headinjury | facialinjury | felineheadinjury | felinefacialinjury | rtainvestigation | rtaassessment | b0064 | jaw | mandible | malocclusion | jawinjury | jawmalocclusion | jawmalalignment | mandibulartrauma | catjawtrauma | fracture | jawfracture | mandibularfracture | brokenjaw | catjawfracture | catbrokenjaw | catmandibularfracture | radiography | skull | xray | radiographicpositioning | headradiography | cranialradiography | radiographs | radiograph | mandibulrradiograph | craniocaudalradiograph | headradiograph | catradiograph | catskullradiograph

License

http://creativecommons.org/licenses/by-nc-sa/2.0/

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B0064P0013

Description

A lateral radiograph of a cat presenting with head trauma

Subjects

svmsvet | cat | head | trauma | cats | feline | felines | face | headtrauma | rta | roadtrafficaccident | catheadtrauma | felineheadtrauma | facialtrauma | catfacialtrauma | headinjury | facialinjury | felineheadinjury | felinefacialinjury | rtainvestigation | rtaassessment | b0064 | jaw | mandible | malocclusion | jawinjury | jawmalocclusion | jawmalalignment | mandibulartrauma | catjawtrauma | fracture | jawfracture | mandibularfracture | brokenjaw | catjawfracture | catbrokenjaw | catmandibularfracture | radiography | skull | xray | radiographicpositioning | headradiography | cranialradiography | radiographs | radiograph | mandibulrradiograph | lateralradiograph | headradiograph | catradiograph | catskullradiograph

License

http://creativecommons.org/licenses/by-nc-sa/2.0/

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Fonte Luminosa, Lisboa, Portugal Fonte Luminosa, Lisboa, Portugal

Description

Subjects

fundaçãocaloustegulbenkian | fundaçãocaloustegulbenkian | gulbenkian | gulbenkian | bibliotecadearte | bibliotecadearte | biblioteca | biblioteca | arte | arte | márionovais | márionovais | mário | mário | novais | novais | fonteluminosa | fonteluminosa | fonte | fonte | luminosa | luminosa | fontemonumental | fontemonumental | inauguração | inauguração | alamedadomafonsohenriques | alamedadomafonsohenriques | alameda | alameda | domafonsohenriques | domafonsohenriques | afonso | afonso | henriques | henriques | carlosrebelodeandrade | carlosrebelodeandrade | carlos | carlos | rebelo | rebelo | andrade | andrade | guilhermerebelodeandrade | guilhermerebelodeandrade | guilherme | guilherme | diogodemacedo | diogodemacedo | diogo | diogo | macedo | macedo | maximianoalves | maximianoalves | maximiano | maximiano | alves | alves | jorgebarradas | jorgebarradas | jorge | jorge | barradas | barradas | arquitectura | arquitectura | escultura | escultura | cerâmica | cerâmica | lisboa | lisboa | portugal | portugal

License

No known copyright restrictions

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6.661 Receivers, Antennas, and Signals (MIT) 6.661 Receivers, Antennas, and Signals (MIT)

Description

This course explores the detection and measurement of radio and optical signals encountered in communications, astronomy, remote sensing, instrumentation, and radar. Topics covered include: statistical analysis of signal processing systems, including radiometers, spectrometers, interferometers, and digital correlation systems; matched filters and ambiguity functions; communications channel performance; measurement of random electromagnetic fields, angular filtering properties of antennas, interferometers, and aperture synthesis systems; and radiative transfer and parameter estimation. This course explores the detection and measurement of radio and optical signals encountered in communications, astronomy, remote sensing, instrumentation, and radar. Topics covered include: statistical analysis of signal processing systems, including radiometers, spectrometers, interferometers, and digital correlation systems; matched filters and ambiguity functions; communications channel performance; measurement of random electromagnetic fields, angular filtering properties of antennas, interferometers, and aperture synthesis systems; and radiative transfer and parameter estimation.

Subjects

receiver | receiver | antenna | antenna | signal | signal | radio | radio | optical | optical | detection | detection | communications | communications | astronomy | astronomy | remote sensing | instrumentation | remote sensing | instrumentation | radar | radar | statistics | statistics | signal processing | signal processing | radiometer | radiometer | spectrometer | spectrometer | interferometer | interferometer | digital correlation | digital correlation | matched filter | matched filter | ambiguity function | ambiguity function | channel performance | channel performance | electromagnetic | electromagnetic | angular filtering | angular filtering | aperture synthesis | aperture synthesis | radiative transfer | radiative transfer | parameter estimation | parameter estimation | remote sensing | remote sensing | instrumentation | instrumentation | radio signals | radio signals | optical signals | optical signals | statistical analysis | statistical analysis

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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22.01 Introduction to Ionizing Radiation (MIT)

Description

This course is an introduction to basic properties of ionizing radiations and their uses in medicine, industry, science, and environmental studies. Discusses natural and man-made radiation sources, energy deposition and dose calculations, various physical, chemical, and biological processes and effects of radiation with examples of their uses, and principles of radiation protection. Term paper and oral presentation of paper required.This course was originally developed by Dr. Jacquelyn Yanch.  As such, significant portions of the materials presented here were derived from her work.

Subjects

ionizing radiations | radiation sources | energy deposition | dose calculations | principles of radiation protection | ionizing | radiation | medicine | industry | science | environmental studies | natural radiation sources | man-made radiation | radiation protection | material interaction | biological material | radiation therapy | medical imaging | non-destructive evaluation | food irradiation | radionuclide dating | well-logging

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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22.01 Introduction to Ionizing Radiation (MIT)

Description

This course provides an introduction to the basic properties of ionizing radiations and their uses in medicine, industry, science, and environmental studies. We will discuss natural and man-made radiation sources, energy deposition and dose calculations, and various physical, chemical, and biological processes and effects of radiation, with examples of their uses, and principles of radiation protection.

Subjects

ionizing radiation | natural radiation | man-made radiation | energy deposition | dose calculations | radiation protection | radiation damage | DNA | cell survival curves | radioactive decay | beta decay | gamma decay | radiological dating | radiation interactions | radon | medical imaging

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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B0092P0005

Description

A radiographic image of a fractued tibia repaired with an intramedullary rod and pins ready to have an external fixator attached

Subjects

svmsvet | cat | cats | feline | felines | rta | roadtrafficaccident | neurological | monoplegia | paralysis | neurology | hindlimb | limb | deeppain | deeppaindeficit | nodeeppain | catrta | felinerta | legtrauma | limbtrauma | hindlimbtrauma | cathindlimb | cathindleg | catleg | catlimb | hindlimbparalysis | cathindlimbparalysis | vetconsultation | vetexamination | clinicalexamination | b0090 | radiography | radiograph | xray | legxray | limbxray | legradiograph | limbradiograph | hindlimbradiograph | cathindlimbradiograph | tibialfracture | brokenleg | fracturedleg | brokenbone | fracturedtibia | fracturedtibiaradiograph | image | radiographic | tibia | fracture | intramedullarypin | fracturerepair | circlagewire | externalfixator | bonerepair | orthopaedicrepair | orthopaedics | postopradiograph

License

http://creativecommons.org/licenses/by-nc-sa/2.0/

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B0092P0004

Description

A radiographic image of a fractued tibia repaired with an intramedullary rod and pins ready to have an external fixator attached

Subjects

svmsvet | cat | cats | feline | felines | rta | roadtrafficaccident | neurological | monoplegia | paralysis | neurology | hindlimb | limb | deeppain | deeppaindeficit | nodeeppain | catrta | felinerta | legtrauma | limbtrauma | hindlimbtrauma | cathindlimb | cathindleg | catleg | catlimb | hindlimbparalysis | cathindlimbparalysis | vetconsultation | vetexamination | clinicalexamination | b0090 | radiography | radiograph | xray | legxray | limbxray | legradiograph | limbradiograph | hindlimbradiograph | cathindlimbradiograph | tibialfracture | brokenleg | fracturedleg | brokenbone | fracturedtibia | fracturedtibiaradiograph | image | radiographic | tibia | fracture | intramedullarypin | fracturerepair | circlagewire | externalfixator | bonerepair | orthopaedicrepair | orthopaedics | postopradiograph

License

http://creativecommons.org/licenses/by-nc-sa/2.0/

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Nottingham Vet School | FlickR

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B0092P0003

Description

A radiographic image of a fractued tibia repaired with an intramedullary rod and pins ready to have an external fixator attached

Subjects

svmsvet | cat | cats | feline | felines | rta | roadtrafficaccident | neurological | monoplegia | paralysis | neurology | hindlimb | limb | deeppain | deeppaindeficit | nodeeppain | catrta | felinerta | legtrauma | limbtrauma | hindlimbtrauma | cathindlimb | cathindleg | catleg | catlimb | hindlimbparalysis | cathindlimbparalysis | vetconsultation | vetexamination | clinicalexamination | b0090 | radiography | radiograph | xray | legxray | limbxray | legradiograph | limbradiograph | hindlimbradiograph | cathindlimbradiograph | tibialfracture | brokenleg | fracturedleg | brokenbone | fracturedtibia | fracturedtibiaradiograph | image | radiographic | tibia | fracture | intramedullarypin | fracturerepair | circlagewire | externalfixator | bonerepair | orthopaedicrepair | orthopaedics | postopradiograph

License

http://creativecommons.org/licenses/by-nc-sa/2.0/

Site sourced from

Nottingham Vet School | FlickR

Attribution

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B0092P0002

Description

A radiographic image of a fractued tibia repaired with an intramedullary rod and pins ready to have an external fixator attached

Subjects

svmsvet | cat | cats | feline | felines | rta | roadtrafficaccident | neurological | monoplegia | paralysis | neurology | hindlimb | limb | deeppain | deeppaindeficit | nodeeppain | catrta | felinerta | legtrauma | limbtrauma | hindlimbtrauma | cathindlimb | cathindleg | catleg | catlimb | hindlimbparalysis | cathindlimbparalysis | vetconsultation | vetexamination | clinicalexamination | b0090 | radiography | radiograph | xray | legxray | limbxray | legradiograph | limbradiograph | hindlimbradiograph | cathindlimbradiograph | tibialfracture | brokenleg | fracturedleg | brokenbone | fracturedtibia | fracturedtibiaradiograph | image | radiographic | tibia | fracture | intramedullarypin | fracturerepair | circlagewire | externalfixator | bonerepair | orthopaedicrepair | orthopaedics | postopradiograph

License

http://creativecommons.org/licenses/by-nc-sa/2.0/

Site sourced from

Nottingham Vet School | FlickR

Attribution

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B0092P0005

Description

A radiographic image of a fractued tibia repaired with an intramedullary rod and pins ready to have an external fixator attached

Subjects

svmsvet | cat | cats | feline | felines | rta | roadtrafficaccident | neurological | monoplegia | paralysis | neurology | hindlimb | limb | deeppain | deeppaindeficit | nodeeppain | catrta | felinerta | legtrauma | limbtrauma | hindlimbtrauma | cathindlimb | cathindleg | catleg | catlimb | hindlimbparalysis | cathindlimbparalysis | vetconsultation | vetexamination | clinicalexamination | b0090 | radiography | radiograph | xray | legxray | limbxray | legradiograph | limbradiograph | hindlimbradiograph | cathindlimbradiograph | tibialfracture | brokenleg | fracturedleg | brokenbone | fracturedtibia | fracturedtibiaradiograph | image | radiographic | tibia | fracture | intramedullarypin | fracturerepair | circlagewire | externalfixator | bonerepair | orthopaedicrepair | orthopaedics | postopradiograph

License

http://creativecommons.org/licenses/by-nc-sa/2.0/

Site sourced from

Nottingham Vet School | FlickR

Attribution

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B0092P0004

Description

A radiographic image of a fractued tibia repaired with an intramedullary rod and pins ready to have an external fixator attached

Subjects

svmsvet | cat | cats | feline | felines | rta | roadtrafficaccident | neurological | monoplegia | paralysis | neurology | hindlimb | limb | deeppain | deeppaindeficit | nodeeppain | catrta | felinerta | legtrauma | limbtrauma | hindlimbtrauma | cathindlimb | cathindleg | catleg | catlimb | hindlimbparalysis | cathindlimbparalysis | vetconsultation | vetexamination | clinicalexamination | b0090 | radiography | radiograph | xray | legxray | limbxray | legradiograph | limbradiograph | hindlimbradiograph | cathindlimbradiograph | tibialfracture | brokenleg | fracturedleg | brokenbone | fracturedtibia | fracturedtibiaradiograph | image | radiographic | tibia | fracture | intramedullarypin | fracturerepair | circlagewire | externalfixator | bonerepair | orthopaedicrepair | orthopaedics | postopradiograph

License

http://creativecommons.org/licenses/by-nc-sa/2.0/

Site sourced from

Nottingham Vet School | FlickR

Attribution

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