Basic Quantum Mechanics for Electrical Engineering
Material type: TextPublication details: Ashland : Arcler Press, (c)2019.Description: 1 online resource (311 pages)Content type:- text
- computer
- online resource
- 9781773616353
- QC174 .B375 2019
- COPYRIGHT NOT covered - Click this link to request copyright permission: https://lib.ciu.edu/copyright-request-form
Item type | Current library | Collection | Call number | URL | Status | Date due | Barcode | |
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Online Book (LOGIN USING YOUR MY CIU LOGIN AND PASSWORD) | G. Allen Fleece Library ONLINE | Non-fiction | QC174.12.75 (Browse shelf(Opens below)) | Link to resource | Available | on1085162965 |
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Includes bibliographies and index.
Cover; Half Title Page; Title Page; Copyright Page; Declaration; About the Editor; Table of Contents; List of Contributors; List of Abbreviations; Preface; SECTION I: BLACKBODY RADIATION, THE PHOTONS AND THE ELECTRONS; Chapter 1 Exact Research on the Theory of the Blackbody Thermal Radiation; Abstract; Introduction; Results; Discussion; References; Chapter 2 Describing Compton Scattering And Two-Quantum Positron Annihilation Based On Compton Profiles: Two Models Suited For The Monte Carlo Method; Abstract; Introduction; Modelling of Compton Scattering
Modelling of Two-Quanta e+ e- AnnihilationConclusions; Acknowledgments; References; Chapter 3 Momentum Exchange In The Electron Double-Slit Experiment; Abstract; Introduction; Momentum Conservation in Double Slit Diffraction; Momentum Exchange Mechanisms; On The Possibility of Trajectory Explanations; The Role of The Vacuum Field; Acknowledgments; References; SECTION II: UNCERTAINTY PRINCIPLE AND MEASUREMENT IN QUANTUM MECHANICS; Chapter 4 Reformulating The Quantum Uncertainty Relation; Abstract; Introduction; Results; Discussion; Methods; References
Chapter 5 Investigating and Improving Student Understanding of Quantum Mechanical Observables and Their Corresponding Operators In Dirac NotationAbstract; Introduction; Summary of Dirac Notation Formalism; Methodology For The Investigation of Student Difficulties; Student Difficulties; Quilt Development; Evaluation of The Quilt; Summary; Acknowledgments; References; Chapter 6 Linguistic Interpretation Of Quantum Mechanics; Projection Postulate; Abstract; The Linguistic Interpretation of Quantum Mechanics; The Wave Function Collapse (I.e., The Projection Postulate); Conclusions; References
Chapter 7 Measuring Incompatible Observables by Exploiting Sequential Weak ValuesAbstract; Acknowledgements; References; SECTION III: OBSERVABLES AND THE RELATIONSHIP BETWEEN CLASSICAL MECHANICS AND QUANTUM MECHANICS; Chapter 8 Quantum Mechanics as Classical Statistical Mechanics With an Ontic Extension and an Epistemic Restriction; Abstract; Introduction; Results; Discussion; Methods; Acknowledgements; References; Chapter 9 Classical and Quantum-Mechanical Axioms With The Higher Time Derivative Formalism; Abstract; Introduction; How To Complete The Quantum-Mechanical Description?
Corrected Bell Inequalities In Random Gravity-Inertial FieldsConclusions; References; SECTION IV: SCHRODINGER EQUATION AND THE TUNNEL EFFECT; Chapter 10 Exact Solutions Of The Position-Dependent- Effective Mass Schrödinger Equation; Abstract; Introduction; Method; Some Physical Examples; Conclusion; Acknowledgement; References; Chapter 11 Operator of Time and Generalized Schrödinger Equation; Abstract; Introduction; Operators Of Time And Energy And Schrödinger Equations; Concluding Remarks; Acknowledgments; References
Chapter 12 Beam Propagation Management In A Fractional Schrödinger Equation
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