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  • Spectroscopy
    Spectroscopy

    Spectroscopy can be defined as the study of the interaction of electromagnetic radiation with matter, during which absorption, emission, or scattering of radiation may take place.The structure and chemical properties of a system can easily be understood and studied with the help of atomic and molecular spectroscopic techniques because there exists a fundamental relationship between the properties of a substance and the interaction of radiation with that substance.The importance of spectroscopy in the physical and chemical processes going on in planets, stars, and comets as well as in the interstellar medium has been continuously growing as a result of the use of satellites and the development of radiotelescopes for the microwave and millimeter wave regions.This book on spectroscopy gives a wealth of information that may be derived from spectra.

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  • Molecular Spectroscopy
    Molecular Spectroscopy

    This textbook offers an introduction to the foundations of spectroscopic methods and provides a bridge between basic concepts and experimental applications in fields as diverse as materials science, biology, solar energy conversion, and environmental science.The author emphasizes the use of time-dependent theory to link the spectral response in the frequency domain to the behavior of molecules in the time domain, strengthened by two brand new chapters on nonlinear optical spectroscopy and time-resolved spectroscopy.Theoretical underpinnings are presented to the extent necessary for readers to understand how to apply spectroscopic tools to their own interests.

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  • Understanding NMR Spectroscopy
    Understanding NMR Spectroscopy

    This text is aimed at people who have some familiarity with high-resolution NMR and who wish to deepen their understanding of how NMR experiments actually ‘work’.This revised and updated edition takes the same approach as the highly-acclaimed first edition.The text concentrates on the description of commonly-used experiments and explains in detail the theory behind how such experiments work.The quantum mechanical tools needed to analyse pulse sequences are introduced set by step, but the approach is relatively informal with the emphasis on obtaining a good understanding of how the experiments actually work.The use of two-colour printing and a new larger format improves the readability of the text.In addition, a number of new topics have been introduced: How product operators can be extended to describe experiments in AX2 and AX3 spin systems, thus making it possible to discuss the important APT, INEPT and DEPT experiments often used in carbon-13 NMR. Spin system analysis i.e. how shifts and couplings can be extracted from strongly-coupled (second-order) spectra. How the presence of chemically equivalent spins leads to spectral features which are somewhat unusual and possibly misleading, even at high magnetic fields. A discussion of chemical exchange effects has been introduced in order to help with the explanation of transverse relaxation. The double-quantum spectroscopy of a three-spin system is now considered in more detail. Reviews of the First Edition “For anyone wishing to know what really goes on in their NMR experiments, I would highly recommend this book” – Chemistry World “…I warmly recommend for budding NMR spectroscopists, or others who wish to deepen their understanding of elementary NMR theory or theoretical tools” – Magnetic Resonance in Chemistry

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  • Electrochemical Impedance Spectroscopy
    Electrochemical Impedance Spectroscopy

    Provides fundamentals needed to apply impedance spectroscopy to a broad range of applications with emphasis on obtaining physically meaningful insights from measurements. Emphasizes fundamentals applicable to a broad range of applications including corrosion, biomedical devices, semiconductors, batteries, fuel cells, coatings, analytical chemistry, electrocatalysis, materials, and sensors Provides illustrative examples throughout the text that show how the principles are applied to common impedance problemsNew Edition has improved pedagogy, with more than twice the number of examplesNew Edition has more in-depth treatment of background material needed to understand impedance spectroscopy, including electrochemistry, complex variables, and differential equations New Edition includes expanded treatment of the influence of mass transport and kinetics and reflects recent advances in understanding frequency dispersion and constant-phase elements

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  • What is NMR spectroscopy?

    Nuclear Magnetic Resonance (NMR) spectroscopy is a powerful analytical technique used to study the structure and dynamics of molecules. It provides detailed information about the chemical environment, connectivity, and conformation of atoms within a molecule. By measuring the interactions of atomic nuclei with a magnetic field, NMR spectroscopy can elucidate the molecular structure of organic compounds, proteins, and other biomolecules. This technique is widely used in chemistry, biochemistry, and structural biology for research and drug discovery purposes.

  • How is spectroscopy applied?

    Spectroscopy is applied in various fields such as chemistry, physics, astronomy, and environmental science. In chemistry, it is used to identify and analyze the chemical composition of substances. In physics, it is used to study the interaction of electromagnetic radiation with matter. In astronomy, it is used to determine the composition, temperature, and motion of celestial objects. In environmental science, it is used to monitor air and water quality by analyzing the presence of pollutants. Overall, spectroscopy is a versatile tool for analyzing the properties of different materials and substances.

  • Does anyone know anything about spectroscopy?

    Spectroscopy is the study of the interaction between matter and electromagnetic radiation. It is used to analyze the composition, structure, and properties of materials by observing how they interact with different wavelengths of light. Spectroscopy has applications in various scientific fields, including chemistry, physics, astronomy, and environmental science. It is a powerful tool for identifying and characterizing substances, and it can provide valuable information about the behavior of atoms and molecules.

  • How do I analyze a spectrum in spectroscopy?

    To analyze a spectrum in spectroscopy, you first need to obtain the spectrum by passing light through a sample and measuring the absorption or emission of different wavelengths. Once you have the spectrum, you can analyze it by identifying the peaks and their corresponding wavelengths. You can then use this information to determine the chemical composition, concentration, and other properties of the sample. Additionally, you can compare the spectrum to reference spectra to help identify the compounds present in the sample.

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  • Introduction to Spectroscopy
    Introduction to Spectroscopy

    Gain an understanding of the latest advances in spectroscopy with INTRODUCTION TO SPECTROSCOPY.This proven book provides a systematic introduction to spectra and basic theoretical concepts in spectroscopic methods and includes up-to-date spectra; a modern presentation of one-dimensional nuclear magnetic resonance (NMR) spectroscopy; an introduction to biological molecules in mass spectrometry; and coverage of modern techniques alongside DEPT, COSY, and HECTOR.

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  • Bioimpedance and Spectroscopy
    Bioimpedance and Spectroscopy

    Bioimpedance and Spectroscopy is a comprehensive gateway into the applications of bioimpedance and relevant aspects of its instrumentation, which presents cutting-edge knowledge in an accessible and simplified way. Written by experts from across the field, this book offers a rare focus on applied engineering and instrumentation, covering both theory and practical applications.This text will guide you towards successful experiments and leads to practical examination of the properties of different biological structures, whether single cells, tissues or whole organ systems, by: Revealing how the underlying processes of the bioimpedance spectroscopy enhance classic understanding of the impedance measurement Introducing new instrumentation methods and applications Warning against some common pitfalls and caveats Explaining historical perspectives, solutions to engineering problems and real-world case studies of how this technology has been successfully applied Clear and practical, this book lays out essential requirements, typical challenges, and common compromises for both students and engineers in the field.Students of data acquisition and impedance measurement, graduate students in biomedical engineering, and engineers of practical measurement solutions will also find this book useful.

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  • Laser Physics and Spectroscopy
    Laser Physics and Spectroscopy

    In this book emphasis is laid on laser including its operation, different types, properties like coherence and monochromaticity, beam propagation, theoretical treatment of atom-field interaction, semi-classical laser theory, non-linear effects, quantum properties, photon concept and coherent states etc.Please note: Taylor & Francis does not sell or distribute the Hardback in India, Pakistan, Nepal, Bhutan, Bangladesh and Sri Lanka.

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  • Chiroptical Spectroscopy : Fundamentals and Applications
    Chiroptical Spectroscopy : Fundamentals and Applications

    This book details chiroptical spectroscopic methods: electronic circular dichroism (ECD), optical rotatory dispersion (ORD), vibrational circular dichroism (VCD), and vibrational Raman optical activity (VROA).For each technique, the text presents experimental methods for measurements and theoretical methods for analyzing the experimental data.It also includes a set of experiments that can be adopted for undergraduate teaching laboratories.Each chapter is written in an easy-to-follow format for novice readers, with necessary theoretical formalism in appendices for advanced readers.

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  • What is spectroscopy and what is a spectrometer?

    Spectroscopy is the study of the interaction between matter and electromagnetic radiation. It involves analyzing the way in which different materials absorb, emit, or scatter light, allowing scientists to identify and characterize substances based on their unique spectral signatures. A spectrometer is a device used to measure and analyze the spectrum of light emitted or absorbed by a substance. It works by separating the different wavelengths of light and measuring their intensity, allowing for the identification of specific elements or compounds based on their unique spectral fingerprints. Spectrometers are widely used in various scientific fields, including chemistry, physics, astronomy, and environmental science.

  • What are the types of vibrations in IR spectroscopy?

    In IR spectroscopy, there are three main types of vibrations: stretching, bending, and combination. Stretching vibrations occur when the distance between two bonded atoms increases or decreases, while bending vibrations involve a change in the angle between two bonds. Combination vibrations are a combination of stretching and bending motions. These vibrations are characteristic of different functional groups and can be used to identify the presence of specific chemical bonds in a molecule.

  • Where are the spectral lines located in ultraviolet-visible spectroscopy?

    In ultraviolet-visible spectroscopy, the spectral lines are located in the ultraviolet and visible regions of the electromagnetic spectrum. The ultraviolet region typically ranges from 190 to 400 nm, while the visible region ranges from 400 to 800 nm. These spectral lines correspond to the absorption or emission of light by molecules, which can provide information about their electronic structure and chemical composition.

  • What is the significance of spectroscopy in relation to NMR and IR?

    Spectroscopy is significant in relation to NMR (nuclear magnetic resonance) and IR (infrared) because it allows scientists to study the interaction of matter with electromagnetic radiation. NMR spectroscopy is used to study the structure and dynamics of molecules by analyzing the behavior of atomic nuclei in a magnetic field. IR spectroscopy, on the other hand, is used to study the chemical composition and structure of molecules by analyzing their interaction with infrared radiation. Both techniques are essential in the fields of chemistry, biochemistry, and materials science for identifying and characterizing compounds.

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