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spectroscopy

Examples

  • SPECTROSCOPY. The following list is to aid you in finding relevant educational resources on the World Wide Web on Spectroscopy. Other Sites (9 May 1997) Tell us your favorite spectroscopy or remote sensing related site, and we'll add a link. — “Spectroscopy”, lib.upm.edu.my
  • Spectroscopy pertains to the dispersion of an object's light into its component colors (i.e. energies) But before we hurtle headlong into the wild and woolly field of spectroscopy, we need to try to answer some seemingly simple questions, such as what. — “What is Spectroscopy?”, loke.as.arizona.edu
  • Spectroscopy Manufacturers & Spectroscopy Suppliers Directory - Find a Spectroscopy Manufacturer and Supplier. Choose quality Spectroscopy Manufacturers, Suppliers, Exporters at . — “Spectroscopy-Spectroscopy Manufacturers, Suppliers and”,
  • IR, NMR and UV/vis spectroscopy are based on observing the frequencies of electromagnetic radiation absorbed and emitted by molecules. UV/Vis Spectroscopy uses ultraviolet and/or visible light to examine the electronic properties of molecules. — “Organic Chemistry/Spectroscopy - Wikibooks, collection of”,
  • International Spectroscopy Data Bank. Spectrsocopy Now : UV Vis, NMR, IR, Atomic, X Ray, Practical Spectroscopy: The Rapid Interpretation of Spectral Data. SPECTRa is an eigh***. — “Chemistry Resources Links”, matematicas.udea.edu.co
  • Spectroscopy definition, the science that deals with the use of the spectroscope and with spectrum ***ysis. See more. — “Spectroscopy | Define Spectroscopy at ”,
  • Spectroscopy books cover titles on not only Infrared, Raman, and NMR spectroscopy, but also Mass Spectroscopy, Fluorescence Spectroscopy and general Spectrophotometry. Optical spectroscopy underpins the day to day operations of most laboratories in the chemical, biological and medical sciences. — “Spectroscopy Books”,
  • spectroscopy (science), study of the absorption and emission of light and other radiation by matter, as related to the dependence of these processes on the wavelength of the radiation. More recently, the definition has been expanded to include. — “spectroscopy (science) -- Britannica Online Encyclopedia”,
  • Learn about Spectroscopy on . Find info and videos including: What Is Magnetic Resonance Spectroscopy?, IR Spectroscopy Tutorial, How to Interpret Infrared Spectroscopy and much more. — “Spectroscopy - ”,
  • Spectroscopy is often used in physical and ***ytical chemistry for the identification of substances, through the spectrum The type of spectroscopy depends on the physical quantity measured. — “Spectroscopy - Definition”,
  • Encyclopedia article about Spectroscopy. Information about Spectroscopy in the Columbia Encyclopedia, Computer Desktop Encyclopedia, computing dictionary. infrared spectroscopy, mass spectroscopy, atomic absorption spectroscopy, auger electron. — “Spectroscopy definition of Spectroscopy in the Free Online”, encyclopedia2
  • Spectroscopy Europe and Spectroscopy Asia - bringing you a world of spectroscopy information. — “Spectroscopy Europe”,
  • spectroscopy n. , pl. , -pies . Study of spectra, especially experimental observation of optical spectra Usually spectroscopy is devoted to identifying elements and compounds and elucidating atomic and molecular structure by measuring the radiant energy. — “spectroscopy: Definition from ”,
  • Spectroscopy was originally the study of the interaction between radiation and matter as a function of wavelength (λ) Spectroscopy/spectrometry is often used in physical and ***ytical chemistry for the identification of substances through the spectrum emitted from or absorbed by them. — “Spectroscopy - Wikipedia, the free encyclopedia”,
  • Spectroscopy was originally the study of the interaction between radiation and matter as a function of wavelength (λ). In fact, historically, spectroscopy referred to the use of visible light dispersed according to its wavelength, e.g. by a prism. — “Spectroscopy”, schools-
  • Spectroscopy is a technique that uses the interaction of energy with a sample to perform an ***ysis. CAMO offers a complete multivariate data ***ysis software for spectroscopic data processing, interpretation and database Management. This. — “Spectroscopy Software : Explore your IR / NIR data”,
  • Introduction to Spectroscopy. In previous sections of this text the structural formulas of hundreds of organic compounds have been reported, often with very little supporting evidence. The Light of Knowledge is an often used phrase, but it is particularly appropriate in reference to spectroscopy. — “Organic Chemistry On Line”, www2.chemistry.msu.edu
  • Definition of spectroscopy in the Online Dictionary. Meaning of spectroscopy. Pronunciation of spectroscopy. Translations of spectroscopy. spectroscopy synonyms, spectroscopy antonyms. Information about spectroscopy in the free online English. — “spectroscopy - definition of spectroscopy by the Free Online”,
  • Spectroscopy portal addressing mass spectrometry, NMR, MRI, x-ray, atomic, Raman, IR, UV, proteomics and chemometrics and informatics techniques. — “”,
  • Spectroscopy Magazine Online provides practical advice about modern spectroscopic techniques and instrumentation to solve real-world problems in diverse physical and life science disciplines. — “Spectroscopy - The Online Source for Materials ***ysis and”, spectroscopyonline.find***
  • This page contains information, links to basics and news resources about Spectroscopy, furthermore the related entries: Hybrid Spectroscopy, Echo Planar Spectroscopy, Gradient Echo Spectroscopy, Single Volume Spectroscopy. Provided by the. — “Magnetic Resonance TIP - MRI Database : Spectroscopy”, mr-
  • IR and NMR spectroscopy are currently covered in the organic chemistry teaching labs. IR/NMR Spectroscopy Problem Tutorial. This section takes you through the steps that you will need to do to. — “Spectroscopy”, orgchem.colorado.edu
  • Spectroscopy is the study of the interaction of electromagnetic radiation, such as ultra-violet and visible light, with matter. UV-vis spectroscopy is usually applied to molecules and inorganic ions or complexes in solution. — “101 - Spectroscopy Link - www.101”, 101

Videos

  • Infra-Red Spectroscopy (IR) An education video on Fourier Transform Infra-Red Spectrometry from the Royal Society of Chemistry. From the Modern Instrumental Techniques for schools and colleges DVD. For more information on the Chemistry for our Future programme please visit (C) Royal Society of Chemistry
  • Lec 11 | MIT 5.80 Small-Molecule Spectroscopy and Dynamics, Fall 2008 Lecture 11: Pictures of spectra and notation Instructor: Robert Field ocw.mit.edu License: Creative Commons BY-NC-SA More information at ocw.mit.edu More courses at ocw.mit.edu
  • Introduction to proton NMR spectroscopy (2) Organic chemistry: Introduction to proton NMR (nuclear magnetic resonance) spectroscopy. Equivalent vs. nonequivalent hydrogens; chemical shift; integration; spin-spin splitting. This is a recording of a tutoring session, posted with the student's permission. These videos are offered on a "pay-what-you-like" basis. You can pay for the use of the videos at my website: www.freelance- For a printable document containing the handout discussed in this video series, go to my website. For a list of all the available video series, arranged in suggested viewing order, go to my website. For a playlist containing all the videos in this series, click here: (1) Intro (2) Equivalent vs. nonequivalent hydrogens (3) Continued (4) Continued (5) Continued (6) Continued (7) Chemical shift (8) Continued (9) Continued (10) Integration (11) Spin-spin splitting (12) Continued (13) Continued
  • Lec 3 | MIT 5.80 Small-Molecule Spectroscopy and Dynamics, Fall 2008 Lecture 3: Building an effective hamiltonian Instructor: Robert Field ocw.mit.edu License: Creative Commons BY-NC-SA More information at ocw.mit.edu More courses at ocw.mit.edu
  • NMR spectroscopy tutorial with LabSkills Professor Tim Gallagher, Head of Chemistry at Bristol University, gives a tutorial on NMR spectroscopy using acclaimed software "Chemistry LabSkills". For more information go to
  • Ultraviolet/Visible Spectroscopy (UV-Vis) An education video on Ultraviolet/Visible Spectrometry from the Royal Society of Chemistry. From the Modern Instrumental Techniques for schools and colleges DVD. For more information on the Chemistry for our Future programme please visit (C) Royal Society of Chemistry
  • Gamma Spectroscopy Simple gamma spectroscopy using a Ludlum 2200 scaler/rate meter/single channel ***yzer. Here, a 5uCi Cs-137 source is used to calibrate the threshold and window potentiometers to 100keV/turn. In this instance, since Cs-137 emits gamma from approximately 642 to 682keV, the window is set to (682-642)/100 = 0.40 and the threshold is set to the bottom of the window 642/100 = 6.42; resulting in a critical voltage of about 700V (2.88 on the high voltage control). The calibrated meter is then used to scan for the dominant gamma emission of Am-241 (approximately 55 to 65keV). For more information, go to:
  • Introduction to proton NMR spectroscopy (7) Organic chemistry: Introduction to proton NMR (nuclear magnetic resonance) spectroscopy. Equivalent vs. nonequivalent hydrogens; chemical shift; integration; spin-spin splitting. This is a recording of a tutoring session, posted with the student's permission. These videos are offered on a "pay-what-you-like" basis. You can pay for the use of the videos at my website: www.freelance- For a list of all the available video series, arranged in suggested viewing order, go to my website. For a playlist containing all the videos in this series, click here: (1) Intro (2) Equivalent vs. nonequivalent hydrogens (3) Continued (4) Continued (5) Continued (6) Continued (7) Chemical shift (8) Continued (9) Continued (10) Integration (11) Spin-spin splitting (12) Continued (13) Continued
  • Spectrum of the Stars Find out how we know what the Sun and other stars are made of...
  • Introduction to proton NMR spectroscopy (5) Organic chemistry: Introduction to proton NMR (nuclear magnetic resonance) spectroscopy. Equivalent vs. nonequivalent hydrogens; chemical shift; integration; spin-spin splitting. This is a recording of a tutoring session, posted with the student's permission. These videos are offered on a "pay-what-you-like" basis. You can pay for the use of the videos at my website: www.freelance- For a list of all the available video series, arranged in suggested viewing order, go to my website. For a playlist containing all the videos in this series, click here: (1) Intro (2) Equivalent vs. nonequivalent hydrogens (3) Continued (4) Continued (5) Continued (6) Continued (7) Chemical shift (8) Continued (9) Continued (10) Integration (11) Spin-spin splitting (12) Continued (13) Continued
  • Infrared Spectroscopy Background for this week's lab.
  • Introduction to proton NMR spectroscopy (4) Organic chemistry: Introduction to proton NMR (nuclear magnetic resonance) spectroscopy. Equivalent vs. nonequivalent hydrogens; chemical shift; integration; spin-spin splitting. This is a recording of a tutoring session, posted with the student's permission. These videos are offered on a "pay-what-you-like" basis. You can pay for the use of the videos at my website: www.freelance- For a printable document containing the handout discussed in this video series, go to my website. For a list of all the available video series, arranged in suggested viewing order, go to my website. For a playlist containing all the videos in this series, click here: (1) Intro (2) Equivalent vs. nonequivalent hydrogens (3) Continued (4) Continued (5) Continued (6) Continued (7) Chemical shift (8) Continued (9) Continued (10) Integration (11) Spin-spin splitting (12) Continued (13) Continued
  • Atomic Absorption Spectroscopy Atomic Absorption Spectroscopy. Copyright 2008 University of Adelaide and University Senior College.
  • Lec 2 | MIT 5.80 Small-Molecule Spectroscopy and Dynamics, Fall 2008 Lecture 2: Coupled harmonic oscillators: truncation of an infinite matrix Instructor: Robert Field ocw.mit.edu License: Creative Commons BY-NC-SA More information at ocw.mit.edu More courses at ocw.mit.edu
  • Mass Spectroscopy Steve and Chad tell you how to use the mass spectrometer.
  • EE290f - Lecture 16: X-Ray Absorption Spectroscopy - XAFS, NEXAFS, XANES, EXAFS - given by Dr. Tony VanBuuren, LLNL/UC Merced EE 290F Synchrotron Radiation for Materials Science Applications (Sp 07) Lecture 16 - X-Ray Absorption Spectroscopy - XAFS, NEXAFS, XANES, EXAFS - given by Dr. Tony VanBuuren, LLNL/UC Merced
  • Lec 4 | MIT 5.80 Small-Molecule Spectroscopy and Dynamics, Fall 2008 Lecture 4: Atoms: 1e- and alkali Instructor: Robert Field ocw.mit.edu License: Creative Commons BY-NC-SA More information at ocw.mit.edu More courses at ocw.mit.edu
  • Chemistry 3B - Lecture 04: Electronic Spectroscopy II Chemistry 3B: Chemical Structure and Reactivity. Spring 2006. Professor Peter Vollhardt. Chemistry 3B represents the second semester of the standard organic chemistry series at UC Berkeley. It covers conjugation, aromatic chemistry, carbonyl compounds, carbohydrates, amines, carboxylic acids, amino acids, peptides, proteins, and nucleic acid chemistry. Ultraviolet spectroscopy and mass spectrometry will be introduced. Organic chemistry is a specific discipline within the subject of chemistry. It is the scientific study of the structure, properties, composition, reactions, and preparation of chemical compounds of carbon and hydrogen, which may contain any number of other elements, such as nitrogen,...
  • Introduction to proton NMR spectroscopy (1) Organic chemistry: Introduction to proton NMR (nuclear magnetic resonance) spectroscopy. Equivalent vs. nonequivalent hydrogens; chemical shift; integration; spin-spin splitting. This is a recording of a tutoring session, posted with the student's permission. These videos are offered on a "pay-what-you-like" basis. You can pay for the use of the videos at my website: www.freelance- For a printable document containing the handout discussed in this video series, go to my website. For a list of all the available video series, arranged in suggested viewing order, go to my website. For a playlist containing all the videos in this series, click here: (1) Intro to H NMR spectroscopy (2) Equivalent vs. nonequivalent hydrogens (3) Continued (4) Continued (5) Continued (6) Continued (7) Chemical shift (8) Continued (9) Continued (10) Integration (11) Spin-spin splitting (12) Continued (13) Continued tags: educational college student MCAT exam
  • Chemistry 3B - Lecture 03: Electronic Spectroscopy Chemistry 3B: Chemical Structure and Reactivity. Spring 2006. Professor Peter Vollhardt. Chemistry 3B represents the second semester of the standard organic chemistry series at UC Berkeley. It covers conjugation, aromatic chemistry, carbonyl compounds, carbohydrates, amines, carboxylic acids, amino acids, peptides, proteins, and nucleic acid chemistry. Ultraviolet spectroscopy and mass spectrometry will be introduced. Organic chemistry is a specific discipline within the subject of chemistry. It is the scientific study of the structure, properties, composition, reactions, and preparation of chemical compounds of carbon and hydrogen, which may contain any number of other elements, such as nitrogen,...
  • Mass Spectroscopy A movie about mass spectroscopy.
  • Seminar: Raman Spectroscopy Jones Seminar on Science, Technology, and Society: Raman Spectroscopy of Bone and Cartilage: A Multidisciplinary Approach to Understanding Development, Function, and Disease Michael Morris, University of Michigan November 21, 2008
  • Introduction to proton NMR spectroscopy (3) Organic chemistry: Introduction to proton NMR (nuclear magnetic resonance) spectroscopy. Equivalent vs. nonequivalent hydrogens; chemical shift; integration; spin-spin splitting. This is a recording of a tutoring session, posted with the student's permission. These videos are offered on a "pay-what-you-like" basis. You can pay for the use of the videos at my website: www.freelance- For a printable document containing the handout discussed in this video series, go to my website. For a list of all the available video series, arranged in suggested viewing order, go to my website. For a playlist containing all the videos in this series, click here: (1) Intro (2) Equivalent vs. nonequivalent hydrogens (3) Continued (4) Continued (5) Continued (6) Continued (7) Chemical shift (8) Continued (9) Continued (10) Integration (11) Spin-spin splitting (12) Continued (13) Continued
  • Flame Atomic Absorption Spectroscopy A powerful tool for ***yzing metals
  • Lec 14 | MIT 5.80 Small-Molecule Spectroscopy and Dynamics, Fall 2008 Lecture 14: Definition of angular momenta and Instructor: Robert Field ocw.mit.edu License: Creative Commons BY-NC-SA More information at ocw.mit.edu More courses at ocw.mit.edu
  • MIRTHE Prototype Laser Spectroscopy Platform From Photonics Spectra magazine: A new development in wireless sensor networks for monitoring trace gases and chemicals uses an infrared laser operating at 2 µm and can detect atmospheric carbon dioxide with a sensitivity of 113 parts per billion in an average time of 1 second. Gerard Wysocki, an assistant professor of electrical engineering whose Princeton group developed the sensor in collaboration with MIRTHE (Mid-InfraRed Technologies for Health and the Environment), a National Science Foundation Engineering Research Center based at Princeton, describes the sensor with assistance from postdoctoral scientist Stephen So. They demonstrated the tunable diode laser absorption spectroscopic (TDLAS) CO2 sensor at SPIE Photonics West 2010 in San Francisco. The sensor is also the subject of a news article in the March 2010 issue of Photonics Spectra magazine.
  • 4i. NMR spectroscopy - Coupling Visit for notes on this topic. Thanks for watching! Explanation of coupling with two neighbouring protons. Formation of a doublet and a triplet. The n+1 rule, quartets, quintets. Part of a set of videos giving an introductory course on proton NMR, aimed at around A-level or International Baccalaureate standard. Includes dicussion of integration, chemical shift and coupling.
  • UV/vis spectroscopy This video gives information on UV/vis spectroscopy.
  • EE290f - Lecture 15:L Advanced Spectroscopy for Atomic and Molecular Physics - By Prof. Anders Nilsson, Stanford University EE 290F Synchrotron Radiation for Materials Science Applications (Sp 07) Lecture 15 - Advanced Spectroscopy for Atomic and Molecular Physics - By Prof. Anders Nilsson, Stanford University
  • Some Statistical Problems in Spectroscopy and Hyperspectral Imaging Google Tech Talks July 23, 2008 ABSTRACT Every material has a distinctive spectrum. The spectrum of a material tells us about its chemistry. Hyperspectral images produce a spectrum (represented as several hundred numbers) at each pixel in an image. So hyperspectral images enable us to map variations in chemistry. The first hyperspectral scanners, built in the 1980's and 1990's, were designed for airborne applications, primarily for mineral, environmental and military applications. However, in recent years, hyperspectral microscopes and cameras have been developed and are being used for terrestrial applications in areas such as medical diagnosis, burns ***ysis and skin cancer, biosecurity, pharmaceuticals, forensics and in agribusiness. A significant issue in hyperspectral imaging is that the spectra at many pixels in an image are actually mixtures of the spectra of the pure ingredients. My main focus over a number of years has been on developing fast and sophisticated algorithms and software for "unmixing" these spectra into their pure ingredients, both when the pure ingredients are known and when they are unknown. This has resulted in two software packages: The Spectral Assistant (TSA), which has been incorporated into another CSIRO package, The Spectral Geologist, which itself has been sold to over 100 (mainly exploration and mining) companies around the world; and Iterated Constrained Endmembers (ICE), which has yet to be commercialized. I will give an overview of the ...
  • Fluorescence Spectroscopy Of Quinine MeasureNet Technology, LTD.
  • Lec 19 | MIT 5.80 Small-Molecule Spectroscopy and Dynamics, Fall 2008 Lecture 19: Second-order effects Instructor: Robert Field License: Creative Commons BY-NC-SA More information at ocw.mit.edu More courses at ocw.mit.edu
  • Spectroscopic Binary This animation shows how the orbits of two stars in a binary system produces a periodic splitting in a spectral line due to the doppler effect.
  • Tuneable Monochromator; Spectroscopy Tuneable Monochromator
  • Infrared (IR) spectroscopy problems (1) Organic chemistry: Infrared (IR) spectroscopy problems This is a recording of a tutoring session, posted with the students' permission. These videos are offered on a "pay-what-you-like" basis. You can pay for the use of the videos at my website: www.freelance- For a printable document containing the problems discussed in this video series, go to my website. For a list of all the available video series, arranged in suggested viewing order, go to my website. For a playlist containing all the videos in this series, click here: (1) A problem. Another problem (2) Continued. Another problem (3) Continued
  • Trestles CW/fs laser for spectroscopy of carbon nanotubes and graphene at Rice University Del Mar Photonics featured customer Bruce Weisman. Professor Weisman ordered Trestles Ti:Sapphire laser with built-in DPSS pump laser. Professor Weisman wrote: Our applications are for graphene and carbon nanotube excitation, mostly with a cw beam but in some experiments with mode-locked pulses. Del Mar Photonics offered Trestles Ti:Sapphire model with both CW and femtosecond modes of operation. Dr. R. Bruce Weisman and his group investigate the spectroscopy and photophysics of fullerenes, graphene and carbon nanotubes. All of these are closed nanoscopic structures formed from carbon atoms. Fullerenes, such as C60, C70, and their chemical derivatives, have unusual molecular properties that cause interesting behaviors following the absorption of light. Time-resolved absorption and emission methods are used to study radiationless decay, photochemical reactions, and energy transfer in fullerenes. Another major research topic is single-walled carbon nanotube spectroscopy. Following the discovery in Weisman?s lab of near-infrared nanotube fluorescence, the group has measured and unraveled the absorption and emission spectra of more than 30 semiconducting nanotube species. Follow-up projects include detailed elucidation of nanotube electronic structure, as well as applications in non-invasive biomedical imaging and ***ytical nanotechnology. Selected Publications R. Bruce Weisman and Shekhar Subramoney "Carbon Nanotubes." Interface (Summer, 2006): 42-46. JP ...
  • Lec 1 | MIT 5.80 Small-Molecule Spectroscopy and Dynamics, Fall 2008 Lecture 1: Matrices are useful in spectroscopic theory Instructor: Robert Field ocw.mit.edu License: Creative Commons BY-NC-SA More information at ocw.mit.edu More courses at ocw.mit.edu
  • Lec 20 | MIT 5.80 Small-Molecule Spectroscopy and Dynamics, Fall 2008 Lecture 20: Transformations between basis sets: 3-j, 6-j, and Wigner-Eckart theorem Instructor: Robert Field License: Creative Commons BY-NC-SA More information at ocw.mit.edu More courses at ocw.mit.edu
  • EE290f - Lecture 18: Photoemission and Photoemission Spectroscopy - given by Dr. Zahid Hussain, ALS/LBNL EE 290F Synchrotron Radiation for Materials Science Applications (Sp 07) Lecture 18 - Photoemission and Photoemission Spectroscopy - given by Dr. Zahid Hussain, ALS/LBNL
  • Raman Spectroscopy with the QE65000 In this video we detail the proper setup for taking Raman measurements using the Ocean Optics Q65000 Spectrometer. Once setup is complete we take you through the steps of performing a basic Raman measurement of Ethanol in SpectraSuite Software. For more information visit
  • Helios Transient Pump-Probe Spectroscopy System Newport offers various predesigned ultrafast spectroscopy solutions for pump-probe, four wave mixing, Z-Scan, transient absorption, and many more nonlinear spectroscopy techniques. These solutions are developed by using state-of-the-art Ultrafast oscillators and amplifiers from Spectra Physics, standard off-the-shelf optical parametric amplifiers, transient Spectrum system Helios from ultrafast systems, and various kits comprised of standard optics, opto-mechanics, spectrometers, detectors and motorized stages.
  • Introduction to proton NMR spectroscopy (6) Organic chemistry: Introduction to proton NMR (nuclear magnetic resonance) spectroscopy. Equivalent vs. nonequivalent hydrogens; chemical shift; integration; spin-spin splitting. This is a recording of a tutoring session, posted with the student's permission. These videos are offered on a "pay-what-you-like" basis. You can pay for the use of the videos at my website: www.freelance- For a printable document containing the handout discussed in this video series, go to my website. For a list of all the available video series, arranged in suggested viewing order, go to my website. For a playlist containing all the videos in this series, click here: (1) Intro (2) Equivalent vs. nonequivalent hydrogens (3) Continued (4) Continued (5) Continued (6) Continued (7) Chemical shift (8) Continued (9) Continued (10) Integration (11) Spin-spin splitting (12) Continued (13) Continued