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200 1 $aFinancial and Administrative Accounting.$fby ASHBURNE J.G. SMITH C.A.
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702  1$aSmith,$bCharles Aubrey
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200 10$aNonlinear dynamics of nanobiophysics /$fSlobodan Zdravkovic? and Dalibor Chevizovich
210  1$aSingapore :$cSpringer,$d[2023]
210  4$d©2023
215   $a1 online resource (369 pages)
311 08$aPrint version: Zdravkovi?, Slobodan Nonlinear Dynamics of Nanobiophysics Singapore : Springer,c2023 9789811953224 
327   $aIntro -- Contents -- Introduction -- References -- The Insights into Richness of Nonlinear Schrödinger Equation -- 1 Introduction -- 2 Nonlinear Schrödinger Equation -- 2.1 Modulation Instability -- 2.2 Solitons -- 2.3 Breathers -- 2.4 Rogue Waves -- 3 Generalized NLSE -- 3.1 Higher-Order NLSE -- 3.2 Driven NLSE with Quadratic-Cubic Nonlinearity -- 4 Applications of Nonlinear Localized Waves in Biology -- 5 Conclusion -- References -- Nonlinear Dynamics of DNA Chain -- 1 DNA Dynamics -- 2 Resonance Mode and DNA Opening -- 3 Demodulated Standing Solitary Wave and DNA-RNA Transcription -- References -- Nonlinear Dynamics of DNA Chain  with Long-Range Interactions -- 1 Introduction -- 2 Long-Range Interactions in Biological Systems -- 2.1 Long-Range Interactions of the Kac-Baker Type -- 2.2 Long-Range Interactions of the Power-Law Type -- 2.3 Physical Nature of Long-Range Interactions of the Power-Law Type -- 3 Long-Range Interactions in the HPB Model -- 3.1 Model Hamiltonian -- 3.2 Equations of Motions -- 3.3 Discrete Derivation Operator Technique -- 3.4 Soliton Solutions -- 4 Long-Range Interactions in the HPB Model  with Damping Effect -- 4.1 Long-Range Hydrodynamical Damping Forces  and Equations of Motions -- 4.2 Dissipative Soliton Solution -- 5 Conclusion -- References -- Trajectories of DNA Kinks -- 1 Kinks of Homogeneous DNA -- 2 Kink Trajectories in Homogeneous DNA -- 2.1 Kink Trajectories in the Case of Absence of External Field -- 2.2 Kink Trajectories in the Case of Constant External Field M0 -- 2.3 Kink Trajectories in the Case of Periodic External Field with Constant Frequency M( t ) = M0 cos(2?t) -- 2.4 Kink Trajectories in the Case of Periodic External Field with Slowly Varying Frequency  M( t ) = M0 cos(?t - ?t2 /2) -- 2.5 Kink Trajectories in the Case of on/off External Field -- 3 Kink Trajectories in Inhomogeneous DNA.
327   $a3.1 Method of Concentrations -- 3.2 Method of Blocks and Its Application to Kinks of IFNA17 Gene -- 3.3 Kink Trajectories in the pBR322 Plasmid -- 4 Conclusions. Further Development and Perspectives of the Methods of Trajectories -- References -- Conformational B-A-Transition in the DNA Molecule Model -- References -- Soliton Excitations in a Twist-Opening Nonlinear DNA Model -- 1 Twist-Opening Nonlinear Model of DNA Double Helix -- 2 Dispersion Law -- 3 Continuum Approximation -- 4 Nonlinear Schrödinger Equation -- 5 Korteveg-de Vries Equation -- 6 Conclusion -- References -- Vibron Self-trapping in Quasi-One-Dimensional Biomolecules: Non-adiabatic Polaron Approach -- 1 Introduction -- 2 About Energy Processes Inside a Living Cell -- 2.1 Hydrolysis of Adenosine Triphosphate -- 3 Quasi-1D Biomolecules -- 3.1 Proteins: What Is Their Role in the Living Cell? -- 3.2 Proteins: What Is Their Basic Structure? -- 4 Intra-molecular Vibrational Excitation in Biomolecules: Quasi-Free Excitations or Polarons? -- 4.1 The Storage of the Energy Quanta in Biomolecules: Amide-I Mode -- 4.2 A Short Excursion to the Absorption Spectra of the Crystalline Acetanilide -- 4.3 Beyond Davydov Model -- 4.4 Further Investigations in the Framework of Non-adiabatic Polaron Theory -- 5 Theory of Exciton Self-trapped States: Non-adiabatic Polaron -- 5.1 Starting Hamiltonian -- 5.2 Classification of Self-trapped States and Criteria for Their Formation -- 5.3 Vibrons in Biomolecules -- 5.4 Theory of ST States of a Single Vibron Excitation in Quasi-1D Crystal Structure: Method of the Unitary Transformation -- 6 Results and the Discussion -- 7 Conclusion -- 8 Appendix -- 8.1 The Two Useful Relations -- 8.2 Some Important Operator Identities -- 8.3 Formulas of Lang-Firsov Unitary Transformation -- 8.4 The Mean Values of the Functions of Bose Operators -- References.
327   $aQuantum Correlation Effects in Biopolymer Structures -- 1 Introduction -- 2 Description of Quantum Correlations -- 2.1 Quantum Correlation Functions -- 2.2 Properties of the Quantum Correlation Functions -- 2.3 Quasi-Distribution Functions and Quantum Characteristic Functions -- 2.4 Non-classical Phenomena -- 2.5 Entanglement -- 3 Model Description of Quantum Correlations in Biomolecules -- 3.1 Quantum Mechanical Model of Protein Molecules -- 3.2 Influence of the Environment -- 3.3 Vibron Quantum Correlations -- 4 Conclusion -- References -- Nonlinear Dynamics of Microtubules -- 1 Introduction -- 2 Longitudinal Models for MT Dynamics -- 2.1 More General Procedure Within Longitudinal Models for MT Dynamics -- 2.2 Application of Morse Potential Energy -- 3 Angular Models for MT Dynamics -- 3.1 A Series Expansion Unknown Function Method Within the -Model for MT Dynamics -- 3.2 General Model for MT Dynamics -- Appendix -- References -- Calcium Signaling Along Actin Filaments in Stereocilia Controls Hair-Bundle Motility -- 1 Calcium Signaling -- 2 Polyelectrolyte Character of Actin Filaments -- 3 Models of Pulsatile Waves of Ca2+ Ions Along Actin Filaments -- 3.1 Electrochemical Model -- 3.2 The Model of F-Actin as a Nonlinear Transmission Line -- 4 Ca2+-Dependent Myosin-Based Hair-bundle Motility Adaptation -- 4.1 The Coupled Dynamics of Adaptation Motors and Transduction Channels of Stereocilia -- 5 Discussion and Conclusions -- References -- Theoretical Investigation of Interacting Molecular Motors -- 1 Introduction -- 2 Molecular Motors -- 3 Theoretical Approach (TASEP) -- 3.1 Boundary Conditions -- 3.2 Update Rules -- 3.3 Monte Carlo Simulations: Numerical Approach -- 3.4 Master Equation -- 3.5 Mathematical Framework -- 3.6 Mean-Field Approximation -- 4 Development of TASEP Models -- 5 Theoretical Model: TASEP with Interactions.
327   $a5.1 Model Description -- 6 Conclusion -- References.
606   $aBiomechanics
606   $aNonlinear mechanics
615  0$aBiomechanics.
615  0$aNonlinear mechanics.
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330 8 $aIn Lark Brennan's follow-up to the dazzling debut Dangerously Yours, she delves more deeply into the Durand family--its powers, its enemies, and the battles that wage both within and without.Adrien Durand, one of the most powerful telepaths in the world, was born for a life of action and intrigue. But when his father dies suddenly, he's forced to return to Paris to take over his family's business empire, standing guard over the ancient source of their abilities--at a time of great peril. When a beautiful American empath crosses his path, he first suspects she's a spy. But a dazzling energy flows between them, forming a psychic link he's powerless to break.Tate Fulbright was born with a telepathic gift that she both treasures and loathes. She has coped so far by losing herself in work, but on a business trip to Paris she meets the impossibly sexy Adrien Durand, and her carefully constructed fac?ade begins to crumble. Tate hoped only to see the city sights and never expected to be drawn into Adrien's glamorous and high-risk world. But when Adrien's enemies target her, she must set aside her pride and accept his protection.Adrien Durand prides himself on his self-control, but as his enemies draw near and his psychic connection to Tate grows, he soon finds himself in danger of losing his grip on the links that keep his mind--and his family--together. Do Adrien and Tate have a chance for a future together, or will a dangerous fate destroy them both?
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200 10$aApplied chemometrics for scientists /$fRichard G. Brereton
210   $aChichester, England ;$aHoboken, NJ $cJohn Wiley & Sons$dc2007
215   $a1 online resource (397 p.)
300   $aDescription based upon print version of record.
311 08$a9780470016862 
311 08$a0470016868 
320   $aIncludes bibliographical references and index.
327   $aApplied Chemometrics for Scientists; Contents; Preface; 1 Introduction; 1.1 Development of Chemometrics; 1.1.1 Early Developments; 1.1.2 1980s and the Borderlines between Other Disciplines; 1.1.3 1990s and Problems of Intermediate Complexity; 1.1.4 Current Developments in Complex Problem Solving; 1.2 Application Areas; 1.3 How to Use this Book; 1.4 Literature and Other Sources of Information; References; 2 Experimental Design; 2.1 Why Design Experiments in Chemistry?; 2.2 Degrees of Freedom and Sources of Error; 2.3 Analysis of Variance and Interpretation of Errors
327   $a2.4 Matrices, Vectors and the Pseudoinverse2.5 Design Matrices; 2.6 Factorial Designs; 2.6.1 Extending the Number of Factors; 2.6.2 Extending the Number of Levels; 2.7 An Example of a Factorial Design; 2.8 Fractional Factorial Designs; 2.9 Plackett-Burman and Taguchi Designs; 2.10 The Application of a Plackett-Burman Design to the Screening of Factors Influencing a Chemical Reaction; 2.11 Central Composite Designs; 2.12 Mixture Designs; 2.12.1 Simplex Centroid Designs; 2.12.2 Simplex Lattice Designs; 2.12.3 Constrained Mixture Designs
327   $a2.13 A Four Component Mixture Design Used to Study Blending of Olive Oils2.14 Simplex Optimization; 2.15 Leverage and Confidence in Models; 2.16 Designs for Multivariate Calibration; References; 3 Statistical Concepts; 3.1 Statistics for Chemists; 3.2 Errors; 3.2.1 Sampling Errors; 3.2.2 Sample Preparation Errors; 3.2.3 Instrumental Noise; 3.2.4 Sources of Error; 3.3 Describing Data; 3.3.1 Descriptive Statistics; 3.3.2 Graphical Presentation; 3.3.3 Covariance and Correlation Coefficient; 3.4 The Normal Distribution; 3.4.1 Error Distributions; 3.4.2 Normal Distribution Functions and Tables
327   $a3.4.3 Applications3.5 Is a Distribution Normal?; 3.5.1 Cumulative Frequency; 3.5.2 Kolmogorov-Smirnov Test; 3.5.3 Consequences; 3.6 Hypothesis Tests; 3.7 Comparison of Means: the t-Test; 3.8 F-Test for Comparison of Variances; 3.9 Confidence in Linear Regression; 3.9.1 Linear Calibration; 3.9.2 Example; 3.9.3 Confidence of Prediction of Parameters; 3.10 More about Confidence; 3.10.1 Confidence in the Mean; 3.10.2 Confidence in the Standard Deviation; 3.11 Consequences of Outliers and How to Deal with Them; 3.12 Detection of Outliers; 3.12.1 Normal Distributions; 3.12.2 Linear Regression
327   $a3.12.3 Multivariate Calibration3.13 Shewhart Charts; 3.14 More about Control Charts; 3.14.1 Cusum Chart; 3.14.2 Range Chart; 3.14.3 Multivariate Statistical Process Control; References; 4 Sequential Methods; 4.1 Sequential Data; 4.2 Correlograms; 4.2.1 Auto-correlograms; 4.2.2 Cross-correlograms; 4.2.3 Multivariate Correlograms; 4.3 Linear Smoothing Functions and Filters; 4.4 Fourier Transforms; 4.5 Maximum Entropy and Bayesian Methods; 4.5.1 Bayes' Theorem; 4.5.2 Maximum Entropy; 4.5.3 Maximum Entropy and Modelling; 4.6 Fourier Filters; 4.7 Peakshapes in Chromatography and Spectroscopy
327   $a4.7.1 Principal Features
330   $aThe book introduces most of the basic tools of chemometrics including experimental design, signal analysis, statistical methods for analytical chemistry and multivariate methods. It then discusses a number of important applications including food chemistry, biological pattern recognition, reaction monitoring, optimisation of processes, medical applications. The book arises from a series of short articles that have been developed over four years on Chemweb (www.chemweb.com).
606   $aChemometrics
606   $aAnalytical chemistry
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615  0$aAnalytical chemistry.
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