Products related to Analytical:
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Introduction to Analytical Electron Microscopy
The birth of analytical electron microscopy (AEM) is somewhat obscure.Was it the recognition of the power and the development of STEM that signaled its birth?Was AEM born with the attachment of a crystal spectrometer to an otherwise conventional TEM? Or was it born earlier with the first analysis of electron loss spectra?It's not likely that any of these developments alone would have been sufficient and there have been many others (microdiffraction, EDS, microbeam fabrication, etc.) that could equally lay claim to being critical to the establishment of true AEM.It is probably more accurate to simply ascribe the present rapid development to the obvious: a combination of ideas whose time has come.Perhaps it is difficult to trace the birth of AEM simply because it remains a point of contention to even define its true scope.For example, the topics in this book, even though very broad, are still far from a complete description of what many call AEM.When electron beams interact with a solid it is well-known that a bewildering number of possible interactions follow.Analytical electron microscopy attempts to take full qualitative and quantitative advantage of as many of these interactions as possible while still preserving the capability of high resolution imaging.Although we restrict ourselves here to electron transparent films, much of what is described applies to thick specimens as well.Not surprisingly, signals from all possible interactions cannot yet (and probably never will) be attained simultaneously under optimum conditions.
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Analytical Impedance Spectroscopy : Basics and Applications
This book introduces the subject of impedance spectroscopy starting from fundamentals through to latest applications in areas such as ceramics, piezoelectric, sensors, agriculture, food quality control, medical diagnostics, cancer research, and so forth.Within the ambit of impedance spectroscopy, plots simulated for useful equivalent circuit models, design of sample holder, necessary precautions to be taken during measurement are described.It further discusses development of softwares for analysis of experimental data and choice of the most appropriate equivalent circuit model.All the materials are supported by problems, answers, appendices and references. Features:Includes fundamentals, equivalent circuit modeling and analysis of data related to impedance spectroscopy. Presents experimental measurements in a nuts-and-bolts approach. Includes derivation of expressions for some selected models and values of immittance functions as frequency of measurements tend to zero and to infinity. Provides clear recipe for beginners for proceeding toward developing equivalent circuit models. Describes computer program for complex nonlinear least squares fitting with example of program IMPSPEC.BASThis book is aimed at senior undergraduate/graduate students and researchers in materials engineering, mechanical engineering, electrical engineering, chemical engineering, biomedical engineering, construction engineering, physics, chemistry, medical diagnostics, agriculture and dairy.
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Solid-State Physics, Fluidics, and Analytical Techniques in Micro- and Nanotechnology
Providing a clear theoretical understanding of MEMS and NEMS, Solid-State Physics, Fluidics, and Analytical Techniques in Micro- and Nanotechnology focuses on nanotechnology and the science behind it, including solid-state physics.It provides a clear understanding of the electronic, mechanical, and optical properties of solids relied on in integrated circuits (ICs), MEMS, and NEMS.After exploring the rise of Si, MEMS, and NEMS in a historical context, the text discusses crystallography, quantum mechanics, the band theory of solids, and the silicon single crystal.It concludes with coverage of photonics, the quantum hall effect, and superconductivity.Fully illustrated in color, the text offers end-of-chapter problems, worked examples, extensive references, and a comprehensive glossary of terms.Topics include: Crystallography and the crystalline materials used in many semiconductor devicesQuantum mechanics, the band theory of solids, and the relevance of quantum mechanics in the context of ICs and NEMSSingle crystal Si properties that conspire to make Si so importantOptical properties of bulk 3D metals, insulators, and semiconductorsEffects of electron and photon confinement in lower dimensional structuresHow evanescent fields on metal surfaces enable the guiding of light below the diffraction limit in plasmonicsMetamaterials and how they could make for perfect lenses, changing the photonic field foreverFluidic propulsion mechanisms and the influence of miniaturization on fluid behaviorElectromechanical and optical analytical processes in miniaturized components and systems The first volume in Fundamentals of Microfabrication and Nanotechnology, Third Edition, Three-Volume Set, the book presents the electronic, mechanical, and optical properties of solids that are used in integrated circuits, MEMS, and NEMS and covers quantum mechanics, electrochemistry, fluidics, and photonics.It lays the foundation for a qualitative and quantitative theoretical understanding of MEMS and NEMS.
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Analytical Mechanics
Analytical Mechanics, first published in 1999, provides a detailed introduction to the key analytical techniques of classical mechanics, one of the cornerstones of physics.It deals with all the important subjects encountered in an undergraduate course and prepares the reader thoroughly for further study at graduate level.The authors set out the fundamentals of Lagrangian and Hamiltonian mechanics early on in the book and go on to cover such topics as linear oscillators, planetary orbits, rigid-body motion, small vibrations, nonlinear dynamics, chaos, and special relativity.A special feature is the inclusion of many 'e-mail questions', which are intended to facilitate dialogue between the student and instructor.Many worked examples are given, and there are 250 homework exercises to help students gain confidence and proficiency in problem-solving.It is an ideal textbook for undergraduate courses in classical mechanics, and provides a sound foundation for graduate study.
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What is analytical geometry?
Analytical geometry, also known as coordinate geometry, is a branch of mathematics that combines algebra and geometry. It involves studying geometric shapes using a coordinate system, where points are located using numerical coordinates. By using equations and formulas, analytical geometry allows us to describe and analyze geometric figures such as lines, circles, and parabolas in a precise and systematic way. This branch of mathematics is essential in various fields such as physics, engineering, and computer science for solving complex problems involving shapes and spatial relationships.
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What is analytical chemistry?
Analytical chemistry is the branch of chemistry that focuses on the identification and quantification of chemical substances. It involves the use of various techniques and methods to separate, identify, and quantify the components of a sample. Analytical chemists work to develop and validate methods for analyzing a wide range of substances, from pharmaceuticals and environmental pollutants to food and beverages. The information obtained from analytical chemistry is crucial for quality control, environmental monitoring, and research in various fields.
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What does analytical mean?
Analytical refers to the ability to examine and understand complex information by breaking it down into smaller components and evaluating their significance. It involves critically thinking about data, facts, and evidence to draw logical conclusions and make informed decisions. Analytical skills are important in various fields such as science, business, and problem-solving, as they enable individuals to solve problems, identify patterns, and make sound judgments based on evidence and reasoning.
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What does analytical thinking mean?
Analytical thinking refers to the ability to systematically break down complex problems into smaller components, understand the underlying relationships between these components, and use logic and reasoning to evaluate and solve the problem. It involves critically examining information, identifying patterns, and drawing meaningful conclusions based on evidence and data. Analytical thinking helps individuals make informed decisions, solve problems effectively, and think more strategically.
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Analytical Chemistry II
This workbook takes you through the successful textbook Skoog/Holler/Crouch, Instrumentelle Analytik and is designed primarily for self-study.In five parts, the lecture content of more advanced analytical chemistry is summarized and explained using selected examples: mass spectrometry and nuclear magnetic resonance spectroscopy deal with the investigation of molecules, and numerous electroanalytical methods such as potentiometry, coulometry, amperometry and voltammetry are also covered.An overview of more specialized analytical methods includes the use of radioactive substances and various fluorescence methods, as well as methods of information acquisition in the increasingly important electrochemical and optical sensor technology and their automation.The course concludes with a summary of various principles and application methods of statistics, which are simply indispensable in the context of analytics.In order to facilitate independent learning, references to essential sections and illustrations of the textbook are made throughout the book. Not least because of the numerous examples, the book, which is aimed at students of chemistry or related scientific subjects, provides an easy-to-understand introduction to more complex aspects of analytical chemistry.In direct continuation of the workbook Analytical Chemistry I, references are made again and again to already known basics from other courses, which facilitate the linking of the familiar and the new.Learning with this workbook has been tested in a distance learning chemistry course and facilitates preparation for module examinations in more advanced analytical chemistry.This book is a translation of the original German 1st edition Analytische Chemie II by Ulf Ritgen, published by Springer-Verlag GmbH Germany, part of Springer Nature in 2020.The translation was done with the help of artificial intelligence (machine translation by the service DeepL.com).A subsequent human revision was done primarily in terms of content, so that the book will read stylistically differently from a conventional translation.Springer Nature works continuously to further the development of tools for the production of books and on the related technologies to support the authors.
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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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Analytical Heat Transfer
Analytical Heat Transfer explains how to analyze and solve conduction, convection, and radiation heat transfer problems.It enables students to tackle complex engineering heat transfer problems prevalent in practice. Covering heat transfer in high-speed flows and unsteady highly turbulent flows, the book also discusses enhanced heat transfer in channels, heat transfer in rotating channels, numerical modeling for turbulent flow heat transfer, and thermally developing heat transfer in a circular tube.The second edition features new content on Duhamel’s superposition method, Green’s function method for transient heat conduction, finite-difference method for steady state and transient heat conduction in cylindrical coordinates, and laminar mixed convection.It includes two new chapters on laminar-to-turbulent transitional heat transfer and turbulent flow heat transfer enhancement, in addition to end-of-chapter problems. The book bridges the gap between basic heat transfer undergraduate courses and advanced heat transfer graduate courses for a single semester of intermediate heat transfer, advanced conduction/radiation heat transfer, or convection heat transfer. Features: Focuses on analyzing and solving classic heat transfer problems in conduction, convection, and radiation Covers 2-D and 3-D view factor evaluation, combined radiation with conduction and/or convection, and gas radiation optically thin and optically thick limits Features updated content and new chapters on mass and heat transfer analogy, thermally developing heat transfer in a circular tube, laminar-turbulent transitional heat transfer, unsteady highly turbulent flows, enhanced heat transfer in channels, heat transfer in rotating channels, and numerical modeling for turbulent flow heat transfer Provides step-by-step mathematical formula derivations, analytical solution procedures, and demonstration examples Includes end-of-chapter problems with an accompanying Solutions Manual for instructorsThis book is ideal for undergraduate and graduate students studying basic heat transfer and advanced heat transfer.
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Analytical Pyrolysis Handbook
Analytical pyrolysis allows scientists to use routine laboratory instrumentation for analyzing complex, opaque, or insoluble samples more effectively than other analytical techniques alone.Analytical Pyrolysis Handbook, Third Edition is a practical guide to the application of pyrolysis techniques to various samples and sample types for a diversity of fields including microbiology, forensic science, industrial research, and environmental analysis. The much-anticipated third edition incorporates recent technological advances that increase the technique’s sensitivity to trace elements, improve its reproducibility, and expand its applicability.The book reviews the types of instrumentation available to perform pyrolysis and offers guidance for interfacing instruments and integrating other analytical techniques, including gas chromatography and mass spectrometry.Fully updated with new sample pyrograms, figures, references, and real-world examples, this edition also highlights new areas of application including cultural materials, forensic analysis, and environmental studies. This book illustrates how the latest advances make pyrolysis a practical, cost-effective, reliable, and flexible alternative for increasingly complex sample analyses.Analytical Pyrolysis Handbook, Third Edition is an essential, one-stop guide for determining if pyrolysis meets application-specific needs as well as performing pyrolysis and handling the data obtained.
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Which professions require analytical thinking?
Professions that require analytical thinking include data analysts, financial analysts, scientists, engineers, and researchers. These professionals need to be able to analyze complex information, identify patterns, and draw conclusions to solve problems or make informed decisions. Strong analytical skills are essential in these fields to interpret data, develop strategies, and innovate solutions.
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Is analytical ability a strength?
Yes, analytical ability is a strength because it allows individuals to critically evaluate information, solve complex problems, and make well-informed decisions. People with strong analytical skills are able to break down complex issues into manageable components, identify patterns and trends, and come up with creative solutions. This ability is highly valued in many professional fields, including business, science, engineering, and finance. Overall, analytical ability is a valuable strength that can lead to success in various aspects of life.
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How can one improve analytical thinking?
One can improve analytical thinking by practicing critical thinking skills such as identifying assumptions, evaluating evidence, and making logical connections between ideas. Engaging in activities that require problem-solving and decision-making can also help sharpen analytical thinking. Reading and discussing complex topics, as well as seeking out different perspectives on issues, can further enhance one's ability to think analytically. Additionally, seeking feedback from others and being open to revising one's own thinking can contribute to continuous improvement in analytical skills.
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How is analytical geometry taught in school?
Analytical geometry is typically taught in school as a branch of mathematics that combines algebra and geometry. Students learn how to represent geometric shapes and figures using algebraic equations and coordinates. They also learn how to solve problems involving lines, circles, parabolas, and other geometric shapes using analytical techniques. The focus is on understanding the relationship between algebraic equations and geometric shapes, and applying this knowledge to solve real-world problems.
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