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5.80 Small-Molecule Spectroscopy and Dynamics (MIT) 5.80 Small-Molecule Spectroscopy and Dynamics (MIT)

Description

The goal of this course is to illustrate the spectroscopy of small molecules in the gas phase: quantum mechanical effective Hamiltonian models for rotational, vibrational, and electronic structure; transition selection rules and relative intensities; diagnostic patterns and experimental methods for the assignment of non-textbook spectra; breakdown of the Born-Oppenheimer approximation (spectroscopic perturbations); the stationary phase approximation; nondegenerate and quasidegenerate perturbation theory (van Vleck transformation); qualitative molecular orbital theory (Walsh diagrams); the notation of atomic and molecular spectroscopy. The goal of this course is to illustrate the spectroscopy of small molecules in the gas phase: quantum mechanical effective Hamiltonian models for rotational, vibrational, and electronic structure; transition selection rules and relative intensities; diagnostic patterns and experimental methods for the assignment of non-textbook spectra; breakdown of the Born-Oppenheimer approximation (spectroscopic perturbations); the stationary phase approximation; nondegenerate and quasidegenerate perturbation theory (van Vleck transformation); qualitative molecular orbital theory (Walsh diagrams); the notation of atomic and molecular spectroscopy.

Subjects

spectroscopy | spectroscopy | harmonic oscillators | harmonic oscillators | matrix | matrix | hamiltonian | hamiltonian | heisenberg | heisenberg | vibrating rotor | vibrating rotor | Born-Oppenheimer | Born-Oppenheimer | diatomics | diatomics | laser schemes | laser schemes | angular momentum | angular momentum | hund's cases | hund's cases | energy levels | energy levels | second-order effects | second-order effects | perturbations | perturbations | Wigner-Eckart | Wigner-Eckart | Rydberg-Klein-Rees | Rydberg-Klein-Rees | rigid rotor | rigid rotor | asymmetric rotor | asymmetric rotor | vibronic coupling | vibronic coupling | wavepackets | wavepackets

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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Helicópteros Helicópteros

Description

La asignatura está orientada a que el alumno sea capaz de utilizar con soltura los modelos teóricos para el cálculo básico de las actuaciones y aerodinámica del helicóptero. Además, que conozca tanto el fundamento téorico como el desarrollo, desde el punto de vista de la ingeniería aplicada, de los principales sistemas que identifican una aeronave de alas giratorias. Para ello la asignatura se apoya en tres pilares: modelos téoricos de las principales configuraciones de vuelo, aplicación práctica de los mismos y, por último, descripción de sistemas y elementos específicos del helicóptero. La asignatura está orientada a que el alumno sea capaz de utilizar con soltura los modelos teóricos para el cálculo básico de las actuaciones y aerodinámica del helicóptero. Además, que conozca tanto el fundamento téorico como el desarrollo, desde el punto de vista de la ingeniería aplicada, de los principales sistemas que identifican una aeronave de alas giratorias. Para ello la asignatura se apoya en tres pilares: modelos téoricos de las principales configuraciones de vuelo, aplicación práctica de los mismos y, por último, descripción de sistemas y elementos específicos del helicóptero.

Subjects

Palas | Palas | Vuelo en avance | Vuelo en avance | Aerodinámica del rotor | Aerodinámica del rotor | Tipos de rotor | Tipos de rotor | Actuaciones del helicóptero | Actuaciones del helicóptero | Autorrotación | Autorrotación | Animaciones de rotor | Animaciones de rotor | Vuelo vertical | Vuelo vertical | Rotores | Rotores | Ingeniería Aeroespacial | Ingeniería Aeroespacial

License

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

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5.80 Small-Molecule Spectroscopy and Dynamics (MIT)

Description

The goal of this course is to illustrate the spectroscopy of small molecules in the gas phase: quantum mechanical effective Hamiltonian models for rotational, vibrational, and electronic structure; transition selection rules and relative intensities; diagnostic patterns and experimental methods for the assignment of non-textbook spectra; breakdown of the Born-Oppenheimer approximation (spectroscopic perturbations); the stationary phase approximation; nondegenerate and quasidegenerate perturbation theory (van Vleck transformation); qualitative molecular orbital theory (Walsh diagrams); the notation of atomic and molecular spectroscopy.

Subjects

spectroscopy | harmonic oscillators | matrix | hamiltonian | heisenberg | vibrating rotor | Born-Oppenheimer | diatomics | laser schemes | angular momentum | hund's cases | energy levels | second-order effects | perturbations | Wigner-Eckart | Rydberg-Klein-Rees | rigid rotor | asymmetric rotor | vibronic coupling | wavepackets

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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2.23 Hydrofoils and Propellers (13.04) (MIT) 2.23 Hydrofoils and Propellers (13.04) (MIT)

Description

This course deals with theory and design of hydrofoil sections; lifting and thickness problems for sub-cavitating sections, unsteady flow problems. It focuses on computer-aided design of low drag, cavitation free sections. The course also covers lifting line and lifting surface theory with applications to hydrofoil craft, rudder, and control surface design. Topics include propeller lifting line and lifting surface theory; computer-aided design of wake adapted propellers, unsteady propeller thrust and torque. The course is also an introduction to subjects like flow about axially symmetric bodies and low-aspect ratio lifting surfaces, and hydrodynamic performance and design of waterjets. We will also do an analysis of performance and design of wind turbine rotors in steady and stochastic win This course deals with theory and design of hydrofoil sections; lifting and thickness problems for sub-cavitating sections, unsteady flow problems. It focuses on computer-aided design of low drag, cavitation free sections. The course also covers lifting line and lifting surface theory with applications to hydrofoil craft, rudder, and control surface design. Topics include propeller lifting line and lifting surface theory; computer-aided design of wake adapted propellers, unsteady propeller thrust and torque. The course is also an introduction to subjects like flow about axially symmetric bodies and low-aspect ratio lifting surfaces, and hydrodynamic performance and design of waterjets. We will also do an analysis of performance and design of wind turbine rotors in steady and stochastic win

Subjects

Theory and design of hydrofoil sections | Theory and design of hydrofoil sections | lifting and thickness problems | lifting and thickness problems | sub-cavitating sections | sub-cavitating sections | unsteady flow problems | unsteady flow problems | computer-aided design | computer-aided design | low drag | low drag | cavitation free sections | cavitation free sections | Lifting line and lifting surface theory | Lifting line and lifting surface theory | hydrofoil craft | hydrofoil craft | rudder | rudder | and control surface design | and control surface design | propeller lifting line | propeller lifting line | lifting surface theory | lifting surface theory | wake adapted propellers | wake adapted propellers | unsteady propeller thrust and torque | unsteady propeller thrust and torque | axially symmetric bodies | axially symmetric bodies | low-aspect ratio lifting surfaces | low-aspect ratio lifting surfaces | Hydrodynamic performance | Hydrodynamic performance | design of waterjets | design of waterjets | wind turbine rotors in steady and stochastic wind | wind turbine rotors in steady and stochastic wind | hydrofoil craft | rudder | and control surface design | hydrofoil craft | rudder | and control surface design | 9. low drag | cavitation free sections | 9. low drag | cavitation free sections | 5. hydrofoil craft | rudder | and control surface design | 5. hydrofoil craft | rudder | and control surface design | low drag | cavitation free sections | low drag | cavitation free sections

License

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13.04 Hydrofoils and Propellers (MIT) 13.04 Hydrofoils and Propellers (MIT)

Description

This course deals with theory and design of hydrofoil sections; lifting and thickness problems for sub-cavitating sections, unsteady flow problems. It focuses on computer-aided design of low drag, cavitation free sections. The course also covers lifting line and lifting surface theory with applications to hydrofoil craft, rudder, and control surface design. Topics include propeller lifting line and lifting surface theory; computer-aided design of wake adapted propellers, unsteady propeller thrust and torque. The course is also an introduction to subjects like flow about axially symmetric bodies and low-aspect ratio lifting surfaces, and hydrodynamic performance and design of waterjets. We will also do an analysis of performance and design of wind turbine rotors in steady and stochastic win This course deals with theory and design of hydrofoil sections; lifting and thickness problems for sub-cavitating sections, unsteady flow problems. It focuses on computer-aided design of low drag, cavitation free sections. The course also covers lifting line and lifting surface theory with applications to hydrofoil craft, rudder, and control surface design. Topics include propeller lifting line and lifting surface theory; computer-aided design of wake adapted propellers, unsteady propeller thrust and torque. The course is also an introduction to subjects like flow about axially symmetric bodies and low-aspect ratio lifting surfaces, and hydrodynamic performance and design of waterjets. We will also do an analysis of performance and design of wind turbine rotors in steady and stochastic win

Subjects

Theory and design of hydrofoil sections | Theory and design of hydrofoil sections | lifting and thickness problems | lifting and thickness problems | sub-cavitating sections | sub-cavitating sections | unsteady flow problems | unsteady flow problems | computer-aided design | computer-aided design | low drag | low drag | cavitation free sections | cavitation free sections | Lifting line and lifting surface theory | Lifting line and lifting surface theory | hydrofoil craft | hydrofoil craft | rudder | rudder | and control surface design | and control surface design | propeller lifting line | propeller lifting line | lifting surface theory | lifting surface theory | wake adapted propellers | wake adapted propellers | unsteady propeller thrust and torque | unsteady propeller thrust and torque | axially symmetric bodies | axially symmetric bodies | low-aspect ratio lifting surfaces | low-aspect ratio lifting surfaces | Hydrodynamic performance | Hydrodynamic performance | design of waterjets | design of waterjets | wind turbine rotors in steady and stochastic wind | wind turbine rotors in steady and stochastic wind | hydrofoil craft | rudder | and control surface design | hydrofoil craft | rudder | and control surface design | 9. low drag | cavitation free sections | 9. low drag | cavitation free sections | 5. hydrofoil craft | rudder | and control surface design | 5. hydrofoil craft | rudder | and control surface design | low drag | cavitation free sections | low drag | cavitation free sections | 2.23 | 2.23

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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2.23 Hydrofoils and Propellers (MIT) 2.23 Hydrofoils and Propellers (MIT)

Description

This course develops the theory and design of hydrofoil sections, including lifting and thickness problems for sub-cavitating sections, unsteady flow problems, and computer-aided design of low drag cavitation-free sections. It also covers lifting line and lifting surface theory with applications to hydrofoil craft, rudder, control surface, propeller and wind turbine rotor design. Other topics include computer-aided design of wake adapted propellers; steady and unsteady propeller thrust and torque; performance analysis and design of wind turbine rotors in steady and stochastic wind; and numerical principles of vortex lattice and lifting surface panel methods. Projects illustrate the development of computational methods for lifting, propeller and wind turbine flows, and use of state-of-the-a This course develops the theory and design of hydrofoil sections, including lifting and thickness problems for sub-cavitating sections, unsteady flow problems, and computer-aided design of low drag cavitation-free sections. It also covers lifting line and lifting surface theory with applications to hydrofoil craft, rudder, control surface, propeller and wind turbine rotor design. Other topics include computer-aided design of wake adapted propellers; steady and unsteady propeller thrust and torque; performance analysis and design of wind turbine rotors in steady and stochastic wind; and numerical principles of vortex lattice and lifting surface panel methods. Projects illustrate the development of computational methods for lifting, propeller and wind turbine flows, and use of state-of-the-a

Subjects

turbine | turbine | rotor | rotor | computer-aided design | computer-aided design | propulsion | propulsion | lifting line | lifting line | thrust | thrust | torque | torque | vortices | vortices | boundary layers | boundary layers | wake adaptation | wake adaptation | cavitation | cavitation | fluid flow | fluid flow | fluid dynamics | fluid dynamics | lifting surface panel method | lifting surface panel method | vortex lattice method | vortex lattice method | lifting flow | lifting flow

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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5.61 Physical Chemistry (MIT) 5.61 Physical Chemistry (MIT)

Description

This course presents an introduction to quantum mechanics. It begins with an examination of the historical development of quantum theory, properties of particles and waves, wave mechanics and applications to simple systems — the particle in a box, the harmonic oscillator, the rigid rotor and the hydrogen atom. The lectures continue with a discussion of atomic structure and the Periodic Table. The final lectures cover applications to chemical bonding including valence bond and molecular orbital theory, molecular structure, spectroscopy. Acknowledgements The material for 5.61 has evolved over a period of many years, and, accordingly, several faculty members have contributed to the development of the course contents. The original version of the lecture notes that are available on OCW wa This course presents an introduction to quantum mechanics. It begins with an examination of the historical development of quantum theory, properties of particles and waves, wave mechanics and applications to simple systems — the particle in a box, the harmonic oscillator, the rigid rotor and the hydrogen atom. The lectures continue with a discussion of atomic structure and the Periodic Table. The final lectures cover applications to chemical bonding including valence bond and molecular orbital theory, molecular structure, spectroscopy. Acknowledgements The material for 5.61 has evolved over a period of many years, and, accordingly, several faculty members have contributed to the development of the course contents. The original version of the lecture notes that are available on OCW wa

Subjects

physical chemistry | physical chemistry | quantum mechanics | quantum mechanics | quantum chemistry | quantum chemistry | particles and waves | particles and waves | wave mechanics | wave mechanics | atomic structure | atomic structure | valence orbital | valence orbital | molecular orbital theory | molecular orbital theory | molecular structure | molecular structure | photochemistry | photochemistry | tunneling | tunneling | spherical harmonics | spherical harmonics | rigid rotor | rigid rotor | perturbation theory | perturbation theory | oscillators | oscillators | hartree-fock | hartree-fock | LCAO | LCAO

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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Tiltrotor Research Aircraft Hovering Tiltrotor Research Aircraft Hovering

Description

Subjects

osprey | osprey | xv15 | xv15 | tiltrotorresearchaircraft | tiltrotorresearchaircraft | armybellpropwhirl | armybellpropwhirl

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5.61 Physical Chemistry (MIT) 5.61 Physical Chemistry (MIT)

Description

This course presents an introduction to quantum mechanics. It begins with an examination of the historical development of quantum theory, properties of particles and waves, wave mechanics and applications to simple systems—the particle in a box, the harmonic oscillator, the rigid rotor and the hydrogen atom. The lectures continue with a discussion of atomic structure and the Periodic Table. The final lectures cover applications to chemical bonding including valence bond and molecular orbital theory, molecular structure, and spectroscopy. Acknowledgements The material for 5.61 has evolved over a period of many years, and, accordingly, several faculty members have contributed to the development of the course contents. The original version of the lecture notes that are available on OCW This course presents an introduction to quantum mechanics. It begins with an examination of the historical development of quantum theory, properties of particles and waves, wave mechanics and applications to simple systems—the particle in a box, the harmonic oscillator, the rigid rotor and the hydrogen atom. The lectures continue with a discussion of atomic structure and the Periodic Table. The final lectures cover applications to chemical bonding including valence bond and molecular orbital theory, molecular structure, and spectroscopy. Acknowledgements The material for 5.61 has evolved over a period of many years, and, accordingly, several faculty members have contributed to the development of the course contents. The original version of the lecture notes that are available on OCW

Subjects

quantum mechanics | quantum mechanics | quantum chemistry | quantum chemistry | particles and waves | particles and waves | wave mechanics | wave mechanics | atomic structure | atomic structure | valence orbital | valence orbital | molecular orbital theory | molecular orbital theory | molecular structure | molecular structure | photochemistry | photochemistry | tunneling | tunneling | spherical harmonics | spherical harmonics | rigid rotor | rigid rotor | perturbation theory | perturbation theory | oscillators | oscillators | spectroscopy | spectroscopy | NMR | NMR | hartree-fock | hartree-fock | LCAO | LCAO

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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XV-15 tilt rotor takeoff - first NASA Dryden flight XV-15 tilt rotor takeoff - first NASA Dryden flight

Description

Subjects

armstrong | armstrong | afrc | afrc | nasaarmstrong | nasaarmstrong | aviationaerospacenationalaeronauticsandspaceadministrationnasaaircraftairplanerotarywingtiltrotorexperimentalflightxplanen703nabellhelicopterbellbellxv15xv15bellmodel301bell301lycominglycomingt53t53t53l13blycominglt | aviationaerospacenationalaeronauticsandspaceadministrationnasaaircraftairplanerotarywingtiltrotorexperimentalflightxplanen703nabellhelicopterbellbellxv15xv15bellmodel301bell301lycominglycomingt53t53t53l13blycominglt

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Milling rotor wedges (1914 ? 18)

Description

These images belong to the Parsons? ?Women Labourers? photograph album, taken at Parsons? Works on Shields Road during the First World War. (TWAM ref: 2402) The factory was founded by engineer Charles Parsons, best known for his invention of the steam turbine. In 1914, with the outbreak of war, Parsons? daughter Rachel, one of the first three women to study engineering at Cambridge, replaced her brother on the board of directors, and took on a role in the training department of the Ministry of Munitions, supporting the increasing amount of women taking on jobs in industry to support the war effort. More information about Rachel Parsons and Parsons? Works can be found in Great North Greats a guest post by David Wright. (copyright) We?re happy for you to share these digital images within the spirit of The Commons. Please cite 'Tyne & Wear Archives & Museums' when reusing. Certain restrictions on high quality reproductions and commercial use of the original physical version apply though; if you're unsure please email archives@twmuseums.org.uk

Subjects

ww1 | firstworldwar | war | worlife1915 | parsons | munitions | women | female | labourers | work | factory | heaton | newcastle | industrialheritage | womenofthewar | industry | blackandwhitephotograph | digitalimage | archives | documentation | parsons??womenlabourers? | woman | parsons?works | shieldsroad | engineer | charlesparsons | inventor | steamturbine | rachelparsons | engineering | cambridge | boardofdirectors | trainingdepartment | ministryofmunitions | wareffort | support | fascinating | engaging | unusual | grain | blur | mark | rotorwedges | milling | millingrotorwedges | 191418 | container | components | equipment | tool | handle | precision | working | standing | coat | crease | window | wall | ledge | bar | glass | mechanical | manual | northeastofengland | unitedkingdom | pile | debris | newcastleupontyne | production | progress | room | interior | pocket | parts | parsons??womenlabourers?photographalbum

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IMG_0606 IMG_0606

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Subjects

bell | bell | aircraft | aircraft | aviation | aviation | helicopter | helicopter | bellhelicopter | bellhelicopter | rotorcraft | rotorcraft | belljetranger | belljetranger | rotarywing | rotarywing | bellaircraft | bellaircraft

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Rene Francillon Collection Image Rene Francillon Collection Image

Description

Subjects

aircraft | aircraft | aviation | aviation | helicopter | helicopter | skycrane | skycrane | sikorsky | sikorsky | prattwhitney | prattwhitney | rotorcraft | rotorcraft | s64 | s64 | ch54 | ch54 | rotarywing | rotarywing | ch54a | ch54a | tarhe | tarhe | sikorskyaircraft | sikorskyaircraft | t73 | t73 | sikorskych54tarhe | sikorskych54tarhe | sikorskych54atarhe | sikorskych54atarhe | sikorskys64 | sikorskys64 | s64skycrane | s64skycrane | sikorskyskycrane | sikorskyskycrane | sikorskych54 | sikorskych54 | sikorskys64skycrane | sikorskys64skycrane | sikorskytarhe | sikorskytarhe | ch54atarhe | ch54atarhe | sikorskych54a | sikorskych54a | ch54tarhe | ch54tarhe | prattwhitneyt73 | prattwhitneyt73 | jftd12 | jftd12 | prattwhitneyjftd12 | prattwhitneyjftd12

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aircraft | aircraft | aviation | aviation | helicopter | helicopter | skycrane | skycrane | sikorsky | sikorsky | prattwhitney | prattwhitney | rotorcraft | rotorcraft | s64 | s64 | ch54 | ch54 | rotarywing | rotarywing | ch54a | ch54a | tarhe | tarhe | sikorskyaircraft | sikorskyaircraft | t73 | t73 | sikorskych54tarhe | sikorskych54tarhe | sikorskych54atarhe | sikorskych54atarhe | sikorskys64 | sikorskys64 | s64skycrane | s64skycrane | sikorskyskycrane | sikorskyskycrane | sikorskych54 | sikorskych54 | sikorskys64skycrane | sikorskys64skycrane | sikorskytarhe | sikorskytarhe | ch54atarhe | ch54atarhe | sikorskych54a | sikorskych54a | ch54tarhe | ch54tarhe | prattwhitneyt73 | prattwhitneyt73 | jftd12 | jftd12 | prattwhitneyjftd12 | prattwhitneyjftd12

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aircraft | aircraft | aviation | aviation | helicopter | helicopter | skycrane | skycrane | sikorsky | sikorsky | prattwhitney | prattwhitney | rotorcraft | rotorcraft | s64 | s64 | ch54 | ch54 | rotarywing | rotarywing | ch54a | ch54a | tarhe | tarhe | sikorskyaircraft | sikorskyaircraft | t73 | t73 | sikorskych54tarhe | sikorskych54tarhe | sikorskych54atarhe | sikorskych54atarhe | sikorskys64 | sikorskys64 | s64skycrane | s64skycrane | sikorskyskycrane | sikorskyskycrane | sikorskych54 | sikorskych54 | sikorskys64skycrane | sikorskys64skycrane | sikorskytarhe | sikorskytarhe | ch54atarhe | ch54atarhe | sikorskych54a | sikorskych54a | ch54tarhe | ch54tarhe | prattwhitneyt73 | prattwhitneyt73 | jftd12 | jftd12 | prattwhitneyjftd12 | prattwhitneyjftd12

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aircraft | aircraft | aviation | aviation | helicopter | helicopter | skycrane | skycrane | sikorsky | sikorsky | prattwhitney | prattwhitney | rotorcraft | rotorcraft | s64 | s64 | ch54 | ch54 | rotarywing | rotarywing | ch54a | ch54a | tarhe | tarhe | sikorskyaircraft | sikorskyaircraft | t73 | t73 | sikorskych54tarhe | sikorskych54tarhe | sikorskych54atarhe | sikorskych54atarhe | sikorskys64 | sikorskys64 | s64skycrane | s64skycrane | sikorskyskycrane | sikorskyskycrane | sikorskych54 | sikorskych54 | sikorskys64skycrane | sikorskys64skycrane | sikorskytarhe | sikorskytarhe | ch54atarhe | ch54atarhe | sikorskych54a | sikorskych54a | ch54tarhe | ch54tarhe | prattwhitneyt73 | prattwhitneyt73 | jftd12 | jftd12 | prattwhitneyjftd12 | prattwhitneyjftd12

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aircraft | aircraft | aviation | aviation | helicopter | helicopter | skycrane | skycrane | sikorsky | sikorsky | prattwhitney | prattwhitney | rotorcraft | rotorcraft | s64 | s64 | ch54 | ch54 | rotarywing | rotarywing | ch54a | ch54a | tarhe | tarhe | sikorskyaircraft | sikorskyaircraft | t73 | t73 | sikorskych54tarhe | sikorskych54tarhe | sikorskych54atarhe | sikorskych54atarhe | sikorskys64 | sikorskys64 | s64skycrane | s64skycrane | sikorskyskycrane | sikorskyskycrane | sikorskych54 | sikorskych54 | sikorskys64skycrane | sikorskys64skycrane | sikorskytarhe | sikorskytarhe | ch54atarhe | ch54atarhe | sikorskych54a | sikorskych54a | ch54tarhe | ch54tarhe | prattwhitneyt73 | prattwhitneyt73 | jftd12 | jftd12 | prattwhitneyjftd12 | prattwhitneyjftd12

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aircraft | aircraft | aviation | aviation | helicopter | helicopter | skycrane | skycrane | sikorsky | sikorsky | prattwhitney | prattwhitney | rotorcraft | rotorcraft | s64 | s64 | ch54 | ch54 | rotarywing | rotarywing | ch54a | ch54a | tarhe | tarhe | sikorskyaircraft | sikorskyaircraft | t73 | t73 | sikorskych54tarhe | sikorskych54tarhe | sikorskych54atarhe | sikorskych54atarhe | sikorskys64 | sikorskys64 | s64skycrane | s64skycrane | sikorskyskycrane | sikorskyskycrane | sikorskych54 | sikorskych54 | sikorskys64skycrane | sikorskys64skycrane | sikorskytarhe | sikorskytarhe | ch54atarhe | ch54atarhe | sikorskych54a | sikorskych54a | ch54tarhe | ch54tarhe | prattwhitneyt73 | prattwhitneyt73 | jftd12 | jftd12 | prattwhitneyjftd12 | prattwhitneyjftd12

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No known copyright restrictions

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Rene Francillon Collection Image Rene Francillon Collection Image

Description

Subjects

aircraft | aircraft | aviation | aviation | helicopter | helicopter | skycrane | skycrane | sikorsky | sikorsky | prattwhitney | prattwhitney | unitedstatesarmy | unitedstatesarmy | rotorcraft | rotorcraft | s64 | s64 | ch54 | ch54 | rotarywing | rotarywing | ch54a | ch54a | tarhe | tarhe | usamy | usamy | sikorskyaircraft | sikorskyaircraft | t73 | t73 | sikorskych54tarhe | sikorskych54tarhe | sikorskych54atarhe | sikorskych54atarhe | sikorskys64 | sikorskys64 | s64skycrane | s64skycrane | sikorskyskycrane | sikorskyskycrane | sikorskych54 | sikorskych54 | sikorskys64skycrane | sikorskys64skycrane | sikorskytarhe | sikorskytarhe | ch54atarhe | ch54atarhe | sikorskych54a | sikorskych54a | ch54tarhe | ch54tarhe | prattwhitneyt73 | prattwhitneyt73 | jftd12 | jftd12 | prattwhitneyjftd12 | prattwhitneyjftd12

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Rene Francillon Collection Image Rene Francillon Collection Image

Description

Subjects

aircraft | aircraft | aviation | aviation | helicopter | helicopter | skycrane | skycrane | sikorsky | sikorsky | prattwhitney | prattwhitney | rotorcraft | rotorcraft | s64 | s64 | ch54 | ch54 | rotarywing | rotarywing | ch54a | ch54a | tarhe | tarhe | sikorskyaircraft | sikorskyaircraft | t73 | t73 | sikorskych54tarhe | sikorskych54tarhe | sikorskych54atarhe | sikorskych54atarhe | sikorskys64 | sikorskys64 | s64skycrane | s64skycrane | sikorskyskycrane | sikorskyskycrane | sikorskych54 | sikorskych54 | sikorskys64skycrane | sikorskys64skycrane | sikorskytarhe | sikorskytarhe | ch54atarhe | ch54atarhe | sikorskych54a | sikorskych54a | ch54tarhe | ch54tarhe | prattwhitneyt73 | prattwhitneyt73 | jftd12 | jftd12 | prattwhitneyjftd12 | prattwhitneyjftd12

License

No known copyright restrictions

Site sourced from

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Rene Francillon Collection Image Rene Francillon Collection Image

Description

Subjects

aircraft | aircraft | aviation | aviation | helicopter | helicopter | skycrane | skycrane | sikorsky | sikorsky | prattwhitney | prattwhitney | rotorcraft | rotorcraft | s64 | s64 | ch54 | ch54 | rotarywing | rotarywing | ch54a | ch54a | tarhe | tarhe | sikorskyaircraft | sikorskyaircraft | t73 | t73 | sikorskych54tarhe | sikorskych54tarhe | sikorskych54atarhe | sikorskych54atarhe | sikorskys64 | sikorskys64 | s64skycrane | s64skycrane | sikorskyskycrane | sikorskyskycrane | sikorskych54 | sikorskych54 | sikorskys64skycrane | sikorskys64skycrane | sikorskytarhe | sikorskytarhe | ch54atarhe | ch54atarhe | sikorskych54a | sikorskych54a | ch54tarhe | ch54tarhe | prattwhitneyt73 | prattwhitneyt73 | jftd12 | jftd12 | prattwhitneyjftd12 | prattwhitneyjftd12

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XV-15 tilt rotor aircraft on VTOL stand XV-15 tilt rotor aircraft on VTOL stand

Description

Subjects

airplane | airplane | bell | bell | aircraft | aircraft | aviation | aviation | nasa | nasa | aerospace | aerospace | xplane | xplane | bellhelicopter | bellhelicopter | tiltrotor | tiltrotor | lycoming | lycoming | nationalaeronauticsandspaceadministration | nationalaeronauticsandspaceadministration | t53 | t53 | rotarywing | rotarywing | xv15 | xv15 | bellxv15 | bellxv15 | experimentalflight | experimentalflight | lycomingt53 | lycomingt53 | t53l13b | t53l13b | bellmodel301 | bellmodel301 | bell301 | bell301 | lycomingltc1k4k | lycomingltc1k4k | ltc1k4k | ltc1k4k

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TALAT Lecture 2110.01: Automobile brake rotor - LCA in product design

Description

This lecture imparts knowledge about ?production and casting of SiC-particle reinforced aluminium metal matrix composite - PMMC (SiCAl7SiMg); use of Life Cycle Analysis. It provides insight to how to redesign a product using life cycle thinking and LCA to minimize the ecological side effects; the importance of having a thoroughly knowledge about the product's life and its environmental impact. Some knowledge of the concept of the product information structure - "the chromosomes" and familiarity with LCA methodology is assumed.

Subjects

aluminium | aluminum | european aluminium association | EAA | Training in Aluminium Application Technologies | training | metallurgy | technology | lecture | design | product | automobile brake system | topological structure | wheel design | brake rotor | calliper | specifications | PMMC | environmental performance | particle reinforced aluminium | production | casting | life cycle analysis | energy consumption | material consumption | safety | pollution | corematerials | ukoer

License

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

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TALAT Lecture 2110.01: Automobile brake rotor - LCA in product design

Description

SiMg); use of Life Cycle Analysis. It provides insight to how to redesign a product using life cycle thinking and LCA to minimize the ecological side effects; the importance of having a thoroughly knowledge about the product's life and its environmental impact. Some knowledge of the concept of the product information structure - "the chromosomes" and familiarity with LCA methodology is assumed.

Subjects

aluminium | aluminum | european aluminium association | eaa | talat | training in aluminium application technologies | training | metallurgy | technology | lecture | design | product | automobile brake system | topological structure | wheel design | brake rotor | calliper | specifications | pmmc | environmental performance | particle reinforced aluminium | production | casting | life cycle analysis | energy consumption | material consumption | safety | pollution | corematerials | ukoer | Engineering | H000

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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AL-84 Vanowsky Album Image Amelia Earhart

Description

Subjects

aircraft | aviation | autogyro | earhart | ameliaearhart | rotorcraft | autogiro | rotarywing

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