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200 00$aNeuropsychopharmacology $ean official publication of the American College of Neuropsychopharmacology /$fKenneth L. Davis [and three others], editors
205   $aFifth edition.
210  1$aPhiladelphia, Pennsylvania :$cLippincott Williams & Wilkins,$d2002.
210  4$d©2002
215   $a1 online resource (2054 p.)
300   $aDescription based upon print version of record.
311   $a0-7817-2837-1 
320   $aIncludes bibliographical references and index.
327   $a""Cover""; ""Copyright""; ""Editors ""; ""Preface""; ""Contents""; ""Section I - Neurotransmitters and Signal Transduction""; ""Neurotransmitters and Signal Transduction - Introduction""; ""1 - Acetylcholine""; ""2 - Serotonin""; ""3 - Opioid Peptides and Their Receptors: Overview and Function in Pain Modulation""; ""4 - Norepinephrine""; ""5 - Regulation of G Protein-Coupled Receptors by Phosphorylation and Endocytosis""; ""6 - The Diverse Roles of L-Glutamic Acid in Brain Signal Transduction""
327   $a""7 - Corticotropin-Releasing Factor: Physiology, Pharmacology, and Role in Central Nervous System Disorders""""8 - Neurogenesis in Adult Brain""; ""9 - Dopamine""; ""10 - Astrocytes""; ""11 - Synaptic Plasticity""; ""12 - Gaba""; ""13 - Substance P and Related Tachykinins""; ""14 - Histamine""; ""15 - Purinergic Neurotransmission""; ""16 - Neurotrophic Factors and Intracellular Signal Transduction Pathways""; ""17 - Regulation of Gene Expression""; ""Section II - Emerging Methods in Molecular Biology and Genetics""; ""Emerging Methods in Molecular Biology and Genetics - Introduction""
327   $a""18 - Using Human Genomics to Advance Neuropsychopharmacology""""19 - Gene Targeting and Transgenic Technologies""; ""20 - Gene Delivery into the Brain Using Viral Vectors""; ""21 - Neuropsychopharmacology of Worms and Flies""; ""22 - Beyond Binding: Molecular and Cell Biological Approaches to Studying G-Proteina???Coupled Receptors""; ""23 - Applying Functional Genomics to Neuropsychopharmacology""; ""Section III - Emerging Imaging Technologies and Their Application to Psychiatric Research""; ""Emerging Imaging Technologies and Their Application to Psychiatric Research -Introduction""
327   $a""24 - Automated 3D Analysis of Large Brain Mri Databases""""25 - In Vivo Magnetic Resonance Spectroscopy Studies of the Glutamate and Gaba Neurotransmitter Cycles and Functional Neuroenergetics""; ""26 - The Spatial, Temporal, and Interpretive Limits of Functional MRI""; ""27 - Diffusion Tensor Imaging""; ""28 - Activation Paradigms in Affective and Cognitive Neuroscience: Probing the Neuronal Circuitry Underlying Mood and Anxiety Disorders""; ""29 - Interactions Among Neuronal Systems Assessed with Functional Neuroimaging""
327   $a""30 - Measuring Brain Connectivity with Functional Imaging and Transcranial Magnetic Stimulation""""31 - In Vivo Molecular Imaging: Ligand Development and Research Applications""; ""32 - Event-Related Potentials and Magnetic Fields in the Human Brain""; ""Section IV - Drug Discovery and Evaluation""; ""Drug Discovery and Evaluation - Introduction""; ""33 - The Role of Preclinical Models in the Development of Psychotropic Drugs""; ""34 - Proof of Concept: Functional Models for Drug Development in Humans ""; ""35 - Ethical Aspects of Neuropsychiatric Research with Human Subjects""
327   $a""36 - Regulatory Issues""
606   $aNeuropsychopharmacology
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200 10$aIntegral methods in low-frequency electromagnetics$b[electronic resource] /$fPavel Solin, Ivo Dolezel, Pavel Karban
210   $aHoboken, NJ $cWiley$dc2009
215   $a1 online resource (418 p.)
300   $aDescription based upon print version of record.
311   $a0-470-19550-9 
320   $aIncludes bibliographical references.
327   $aIntegral Methods in Low-Frequency Electromagnetics; Contents; List of Figures; List of Tables; Preface; Acknowledgments; 1 Electromagnetic Fields and their Basic Characteristics; 1.1 Fundamentals; 1.1.1 Maxwell's equations in integral form; 1.1.2 Maxwell's equations in differential form; 1.1.3 Constitutive relations and equation of continuity; 1.1.4 Media and their characteristics; 1.1.5 Conductors; 1.1.6 Dielectrics; 1.1.7 Magnetic materials; 1.1.8 Conditions on interfaces; 1.2 Potentials; 1.2.1 Scalar electric potential; 1.2.2 Magnetic vector potential; 1.2.3 Magnetic scalar potential
327   $a1.3 Mathematical models of electromagnetic fields 1.3.1 Static electric field; 1.3.2 Static magnetic field; 1.3.3 Quasistationary electromagnetic field; 1.3.4 General electromagnetic field; 1.4 Energy and forces in electromagnetic fields; 1.4.1 Energy of electric field; 1.4.2 Energy of magnetic field; 1.4.3 Forces in electric field; 1.4.4 Forces in magnetic field; 1.5 Power balance in electromagnetic fields; 1.5.1 Energy in electromagnetic field and its transformation; 1.5.2 Balance of power in linear electromagnetic field; 2 Overview of Solution Methods
327   $a2.1 Continuous models in electromagnetism 2.1.1 Differential models; 2.1.2 Integral and integrodifferential models; 2.2 Methods of solution of the continuous models; 2.2.1 Analytical methods; 2.2.2 Numerical methods; 2.2.3 Methods based on the stochastic approach; 2.2.4 Specific methods; 2.3 Classification of the analytical methods; 2.3.1 Methods built on the basic laws of electromagnetics; 2.3.2 Methods based on various transforms; 2.3.3 Direct solution of the field equations; 2.4 Numerical methods and their classification; 2.5 Differential methods; 2.5.1 Difference methods
327   $a2.5.2 Weighted residual methods 2.5.3 Variational and other related methods; 2.6 Finite element method; 2.6.1 Discretization of the definition area and selection of the approximate functions; 2.6.2 Computation of the functional and its extremization; 2.6.3 Further prospectives; 2.7 Integral and integrodifferential methods; 2.8 Important mathematical aspects of numerical methods; 2.8.1 Stability; 2.8.2 Convergence; 2.8.3 Accuracy; 2.9 Numerical schemes for parabolic equations; 2.9.1 Explicit scheme; 2.9.2 Implicit scheme; 3 Solution of Electromagnetic Fields by Integral Expressions
327   $a3.1 Introduction 3.2 1D integration area; 3.2.1 Review of typical problems; 3.2.2 Electric field generated by a solitary filamentary conductor of infinite length; 3.2.3 Electric field of charged thin circular ring; 3.2.4 Magnetic field generated by a solitary filamentary conductor of infinite length; 3.2.5 Magnetic field of thin circular current carrying loop; 3.2.6 Electric field generated by a system of uniformly charged parallel thin filaments of infinite length; 3.2.7 Magnetic field generated by a system of currents carrying parallel filamentary conductors of infinite length
327   $a3.3 2D integration area
330   $aA modern presentation of integral methods in low-frequency electromagnetics This book provides state-of-the-art knowledge on integral methods in low-frequency electromagnetics. Blending theory with numerous examples, it introduces key aspects of the integral methods used in engineering as a powerful alternative to PDE-based models. Readers will get complete coverage of: The electromagnetic field and its basic characteristics An overview of solution methods Solutions of electromagnetic fields by integral expressions Integral and integrodifferential methods<l
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200 10$aBelastungen im Lehrerberuf $efaktoren der belastung und Strategien der belastungsbewa?ltigung /$fAnne Urbutt
210  1$aHamburg, [Germany] :$cDiplomica Verlag,$d2015.
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327   $a2.4 Belastungsreaktionen und -folgen2.4.1 Stress und Angst; 2.4.2 Burnout; 2.4.3 Arbeitszufriedenheit; 3. Aspekte der Belastungsbewa?ltigung; 3.1 Wege der Belastungsbewa?ltigung auf derOrganisationsebene; 3.1.1 Hilfe durch Professionalisierung der Lehreraus- und fortbildung; 3.2 Wege der Belastungsbewa?ltigung auf der Individuumsebene; 3.2.1 Hilfe durch Entspannungstechniken; 3.2.2 Hilfe durch Belastungsreflexion; 3.2.3 Hilfe durch positive Selbstinstruktion; 3.2.4 Trainings zur Stressbewa?ltigung (z.B. BMT-L); 3.2.5 Erweiterung der Kompetenzen
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