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Nuclear Magnetic Resonance Spectroscopy : An Introduction to Principles, Applications, and Experimental Methods
Combines clear and concise discussions of key NMR concepts with succinct and illustrative examples Designed to cover a full course in Nuclear Magnetic Resonance (NMR) Spectroscopy, this text offers complete coverage of classic (one-dimensional) NMR as well as up-to-date coverage of two-dimensional NMR and other modern methods.It contains practical advice, theory, illustrated applications, and classroom-tested problems; looks at such important ideas as relaxation, NOEs, phase cycling, and processing parameters; and provides brief, yet fully comprehensible, examples.It also uniquely lists all of the general parameters for many experiments including mixing times, number of scans, relaxation times, and more. Nuclear Magnetic Resonance Spectroscopy: An Introduction to Principles, Applications, and Experimental Methods, 2nd Edition begins by introducing readers to NMR spectroscopy - an analytical technique used in modern chemistry, biochemistry, and biology that allows identification and characterization of organic, and some inorganic, compounds.It offers chapters covering: Experimental Methods; The Chemical Shift; The Coupling Constant; Further Topics in One-Dimensional NMR Spectroscopy; Two-Dimensional NMR Spectroscopy; Advanced Experimental Methods; and Structural Elucidation. Features classical analysis of chemical shifts and coupling constants for both protons and other nuclei, as well as modern multi-pulse and multi-dimensional methodsContains experimental procedures and practical advice relative to the execution of NMR experimentsIncludes a chapter-long, worked-out problem that illustrates the application of nearly all current methodsOffers appendices containing the theoretical basis of NMR, including the most modern approach that uses product operators and coherence-level diagrams By offering a balance between volumes aimed at NMR specialists and the structure-determination-only books that focus on synthetic organic chemists, Nuclear Magnetic Resonance Spectroscopy: An Introduction to Principles, Applications, and Experimental Methods, 2nd Edition is an excellent text for students and post-graduate students working in analytical and bio-sciences, as well as scientists who use NMR spectroscopy as a primary tool in their work.
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Raman Scattering on Emerging Semiconductors and Oxides
Raman Scattering on Emerging Semiconductors and Oxides presents Raman scattering studies.It describes the key fundamental elements in applying Raman spectroscopies to various semiconductors and oxides without complicated and deep Raman theories. Across nine chapters, it covers:• SiC and IV-IV semiconductors,• III-GaN and nitride semiconductors,• III-V and II-VI semiconductors,• ZnO-based and GaO-based semiconducting oxides,• Graphene, ferroelectric oxides, and other emerging materials,• Wide-bandgap semiconductors of SiC, GaN, and ZnO, and• Ultra-wide gap semiconductors of AlN, Ga2O3, and graphene. Key achievements from the author and collaborators in the above fields are referred to and cited with typical Raman spectral graphs and analyses.Written for engineers, scientists, and academics, this comprehensive book will be fundamental for newcomers in Raman spectroscopy. Zhe Chuan Feng has had an impressive career spanning many years of important work in engineering and tech, including as a professor at the Graduate Institute of Photonics & Optoelectronics and Department of Electrical Engineering, National Taiwan University, Taipei; establishing the Science Exploring Lab; joining Kennesaw State University as an adjunct professor, part-time; and at the Department of Electrical and Computer Engineering, Southern Polytechnic College of Engineering and Engineering Technology.Currently, he is focusing on materials research for LED, III-nitrides, SiC, ZnO, other semiconductors/oxides, and nanostructures and has devoted time to materials research and growth of III-V and II-VI compounds, LED, III nitrides, SiC, ZnO, GaO, and other semiconductors/oxides. Professor Feng has also edited and published multiple review books in his field, alongside authoring scientific journal papers and conference/proceeding papers.He has organized symposiums and been an invited speaker at different international conferences and universities.He has also served as a guest editor for special journal issues.
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Magnetic Resonance Microscopy : Instrumentation and Applications in Engineering, Life Science, and Energy Research
Magnetic Resonance Microscopy Explore the interdisciplinary applications of magnetic resonance microscopy in this one-of-a-kind resource In Magnetic Resonance Microscopy: Instrumentation and Applications in Engineering, Life Science and Energy Research, a team of distinguished researchers delivers a comprehensive exploration of the use of magnetic resonance microscopy (MRM) and similar techniques in an interdisciplinary milieux.Opening with a section on hardware and methodology, the book moves on to consider developments in the field of mobile nuclear magnetic resonance.Essential processes, including filtration, multi-phase flow and transport, and a wide range of systems – from biomarkers via single cells to plants and biofilms – are discussed next.After a fulsome treatment of MRM in the field of energy research, the editors conclude the book with a chapter extoling the virtues of a holistic treatment of theory and application in MRM.Magnetic Resonance Microscopy: Instrumentation and Applications in Engineering, Life Science and Energy Research also includes: A thorough introduction to recent developments in magnetic resonance microscopy hardware and methods, including ceramic coils for MR microscopyComprehensive explorations of applications in chemical engineering, including ultra-fast MR techniques to image multi-phase flow in pipes and reactorsPractical discussions of applications in the life sciences, including MRI of single cells labelled with super paramagnetic iron oxide nanoparticlesIn-depth examinations of new applications in energy research, including spectroscopic imaging of devices for electrochemical storage Perfect for practicing scientists from all fields, Magnetic Resonance Microscopy: Instrumentation and Applications in Engineering, Life Science and Energy Research is an ideal resource for anyone seeking a one-stop guide to magnetic resonance microscopy for engineers, life scientists, and energy researchers.
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Cognitive Resonance
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What is resonance and how can resonance be explained?
Resonance is the phenomenon where an object or system vibrates at its natural frequency when it is subjected to an external force or vibration. This causes the amplitude of the vibrations to increase, leading to a buildup of energy within the system. Resonance can be explained using the concept of natural frequency, which is the frequency at which an object naturally vibrates. When an external force matches the natural frequency of an object, it causes the object to vibrate with increasing amplitude, resulting in resonance. This phenomenon is commonly observed in musical instruments, bridges, and buildings.
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What are resonance-driven oscillations?
Resonance-driven oscillations occur when a system is subjected to an external force at its natural frequency, causing it to oscillate with increasing amplitude. This phenomenon is known as resonance, where the energy of the external force is transferred efficiently to the system, leading to large oscillations. Resonance-driven oscillations can be observed in various systems, such as mechanical, electrical, and acoustic systems, and are important in understanding the behavior of these systems under different conditions.
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What is a resonance structure?
A resonance structure is a way of representing a molecule that cannot be accurately depicted by a single Lewis structure. It involves shifting electrons and bonds within a molecule to show different possible arrangements. These structures help to explain the stability and reactivity of a molecule by showing the delocalization of electrons. Resonance structures are used in organic chemistry to better understand the behavior of certain molecules.
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What are resonance-driven vibrations?
Resonance-driven vibrations occur when an external force is applied to a system at its natural frequency, causing the system to oscillate with increasing amplitude. This phenomenon is known as resonance, where the energy input from the external force is efficiently transferred to the system, leading to large vibrations. Resonance-driven vibrations can be beneficial in some applications, such as musical instruments, but can also be destructive if not properly controlled, as seen in structural failures due to resonance.
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Rhythm Resonance
An old soul with a modern view Numerous traumas she went through She managed to emerge though with new mindsets On a recovery journey, on herself she bets She might seem simple on the surface Yet, she's boiling inside,trapped in a thermos She claimed her feelings, identified them Unearthing their roots, where they stem No red lines, and no secrets She just likes to share her candid experience For your empathy, she's surely needless In emotional detection, a mere ingenious She resonates and tolerates In offering help, she never hesitates Generously giving her care and time With a strong encouragement to always rhyme To self-love and dress to the nine And inner core continuously refine.Oh Hardships! they never last I know how now, you're deeply crashed Rely on your creator, and release your burden A new person will shine, an amazing version.
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Kiai Resonance
You take part in multiplayer samurai combats where one hit off-guard is fatal, and several challenges to perfect your skills. The player can change his katan...
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Spiritual Resonance
Darkend's latest offering, "Spiritual Resonance," is a mind-bending journey through the depths of black metal that will leave you questioning your existence in the best possible way. With their trademark mix of haunting melodies and bone-crushing riffs, this Italian band has crafted a sonic experience that is as intense as it is atmospheric. From the moment you press play, you are transported to a realm of darkness and despair, where the only solace is found in the punishing blast beats and howling vocals that permeate each track. The intricate guitar work and symphonic elements add layers of complexity to the overall sound, creating a sense of unease and tension that keeps you on the edge of your seat throughout the album. Standout tracks like "With Everburning Sulphur Unconsumed," and "Il Velo Dell'Ombra" showcase Darkend's ability to seamlessly blend aggression with beauty, creating a contrast that is as mesmerizing as it is unsettling. The production on "Spiritual Resonance" is top-notch, with every instrument and vocal line coming through clear and powerful, adding an extra layer of depth to the already immersive listening experience. In conclusion, Darkend's "Spiritual Resonance" is a masterclass in modern black metal, showcasing the band's ability to push boundaries and create music that is both challenging and captivating. If you're a fan of the genre, this album is a must-listen. Just make sure to keep the lights on while you're listening - you never know what might be lurking in the shadows.
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Nuclear Magnetic Resonance
The renowned Oxford Chemistry Primers series, which provides focused introductions to a range of important topics in chemistry, has been refreshed and updated to suit the needs of today's students, lecturers, and postgraduate researchers.The rigorous, yet accessible, treatment of each subject area is ideal for those wanting a primer in a given topic to prepare them for more advanced study or research.Moreover, cutting-edge examples and applications throughout the texts show the relevance of the chemistry being described to current research and industry.The learning features provided, including questions at the end of every chapter and online multiple-choice questions, encourage active learning and promote understanding.Furthermore, frequent diagrams, margin notes, and glossary definitions all help to enhance a student's understanding of these essential areas of chemistry.Nuclear Magnetic Resonance offers a concise and accessible introduction to the physical principles of liquid-state NMR, a powerful technique for probing molecular structures.Examples, applications, and exercises are provided throughout to enable beginning undergraduates to get to grips with this important analytical technique. Online Resource CentreThe Online Resource Centre to accompany Nuclear Magnetic Resonance features: For registered adopters of the text:· Figures from the book available to download For students: · Multiple-choice questions for self-directed learning · Full worked solutions to the end-of-chapter exercises
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What are resonance forced vibrations?
Resonance forced vibrations occur when an external force is applied to a system at its natural frequency, causing the system to oscillate with increasing amplitude. This phenomenon occurs when the frequency of the external force matches the natural frequency of the system, resulting in a buildup of energy within the system. Resonance forced vibrations can lead to structural damage or failure if not properly controlled, as the increased amplitudes can exceed the system's limits. It is important to understand and mitigate the effects of resonance forced vibrations in engineering and design to ensure the safety and longevity of structures and machinery.
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What is resonance in physics?
Resonance in physics refers to the phenomenon where an object or system vibrates at its natural frequency when it is subjected to an external force or vibration. This results in a significant increase in the amplitude of the vibrations. Resonance occurs when the frequency of the external force matches the natural frequency of the object, causing it to oscillate with maximum energy transfer. This concept is important in various fields of physics, including mechanics, acoustics, and electronics.
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What is magnetic resonance imaging (MRI)?
Magnetic resonance imaging (MRI) is a non-invasive medical imaging technique that uses a strong magnetic field and radio waves to generate detailed images of the inside of the body. It provides high-resolution images of soft tissues, organs, and structures, making it a valuable tool for diagnosing a wide range of conditions. MRI is commonly used to detect abnormalities in the brain, spine, joints, and internal organs, and is particularly useful for evaluating the brain and spinal cord.
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How do I draw resonance structures?
To draw resonance structures, start by identifying the molecule's conjugated system, which consists of alternating single and multiple bonds. Then, move electrons from one part of the molecule to another to show different possible locations for the double bonds. Remember to maintain the same overall charge and number of valence electrons in each resonance structure. Finally, draw the different resonance structures with double-headed arrows between them to indicate that they are contributing forms of the molecule.
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