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 Zee, A., author.
 Princeton, New Jersey : Princeton University Press, [2020]
 Description
 Book — xxiv, 430 pages : illustrations ; 26 cm
 Summary

The essential primer for physics students who want to build their physical intuition Presented in A. Zee's incomparably engaging style, this book introduces physics students to the practice of using physical reasoning and judicious guesses to get at the crux of a problem. An essential primer for advanced undergraduates and beyond, Fly by Night Physics reveals the simple and effective techniques that researchers use to think through a problem to its solutionor failing that, to smartly guess the answerbefore starting any calculations. In typical physics classrooms, students seek to master an enormous toolbox of mathematical methods, which are necessary to do the precise calculations used in physics. Consequently, students often develop the unfortunate impression that physics consists of welldefined problems that can be solved with tightly reasoned and logical steps. Idealized textbook exercises and homework problems reinforce this erroneous impression. As a result, even the best students can find themselves completely unprepared for the challenges of doing actual research. In reality, physics is replete with back of the envelope estimates, order of magnitude guesses, and fly by night leaps of logic. Including exciting problems related to cuttingedge topics in physics, from Hawking radiation to gravity waves, this indispensable book will help students more deeply understand the equations they have learned and develop the confidence to start flying by night to arrive at the answers they seek. For instructors, a solutions manual is available upon request.
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QC21.3 .Z44 2020  Unknown 
2. The physics of energy [2018]
 Jaffe, Robert L., author.
 Cambridge, United Kingdom ; New York, NY : Cambridge University Press, 2018
 Description
 Book — xxi, 874 pages : illustrations, maps ; 29 cm
 Summary

 Part I. Basic Energy Physics and Uses: 1. Introduction
 2. Mechanical energy
 3. Electromagnetic energy
 4. Waves and light
 5. Thermodynamics I: heat and thermal energy
 6. Heat transfer
 7. Introduction to quantum physics
 8. Thermodynamics II: entropy and temperature
 9. Energy in matter
 10. Thermal energy conversion
 11. Internal combustion engines
 12. Phasechange energy conversion
 13. Thermal power and heat extraction cycles
 Part II. Energy Sources: 14. The forces of nature
 15. Quantum phenomena in energy systems
 16. An overview of nuclear power
 17. Structure, properties and decays of nuclei
 18. Nuclear energy processes: fission and fusion
 19. Nuclear fission reactors and nuclear fusion experiments
 20. Ionizing radiation
 21. Energy in the universe
 22. Solar energy: solar production and radiation
 23. Solar energy: solar radiation on Earth
 24. Solar thermal energy
 25. Photovoltaic solar cells
 26. Biological energy
 27. Ocean energy flow
 28. Wind: a highly variable resource
 29. Fluids  the basics
 30. Wind turbines
 31. Energy from moving water: hydro, wave, tidal, and marine current power
 32. Geothermal energy
 33. Fossil fuels
 Part III. Energy System Issues and Externalities: 34. Energy and climate
 35. Earth's climate: past, present, and future
 36. Energy efficiency, conservation, and changing energy sources
 37. Energy storage
 38. Electricity generation and transmission.
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QC28 .J34 2018  Unknown 
 Farmelo, Graham, author.
 First edition.  New York : Basic Books, 2019.
 Description
 Book — 321 pages : illustrations, portraits ; 25 cm
 Summary

 Prologue: listening to the universe
 Mathematics drives away the cloud
 Shining the torch on electricity and magnetism
 Shining the torch on gravity again
 Quantum mathematics
 The long divorce
 Revolution
 Bad company?
 Jokes and magic lead to the string
 Strung together
 Thinking their way to the Millenium
 Diamonds in the rough
 The best possible times.
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QC6 .F3375 2019  Unknown 
 Milotti, Edoardo, author.
 San Rafael [California] (40 Oak Drive, San Rafael, CA, 94903, USA) : Morgan & Claypool Publishers, 2018. Bristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) : IOP Publishing, [2018]
 Description
 Book — 1 volume (various pagings) : illustrations (some color) ; 26 cm.
 Summary

 Preface Acknowledgments Author biography
 1. Models of Nature
 2. Randomness
 3. Bayesian and frequentist approaches to scientific inference
 4. The principles of inferential statistics
 5. Parametric inference
 6. Prior distributions and equiprobable events in the physical sciences
 7. Conclusionsthe statistical nature of scientific knowledge Appendix AShort review of some basic concepts Appendix BAbbreviations.
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QC20 .M557 2018  Unknown 
 Townsend, John S.
 Mill Valley, California : University Science Books, ©2010.
 Description
 Book — xiv, 411 pages : illustrations ; 28 cm
 Summary

 1. Light
 2. Wave Mechanics
 3. The TimeIndependent Schrodinger Equation
 4. OneDimensional Potentials
 5. Principles of Quantum Mechanics
 6. Quantum Mechanics in three Dimensions
 7. Identical Particles
 8. SolidState Physics
 9. Nuclear Physics
 10. Particle Physics A. Special Relativity B. PowerSeries Solutions Index.
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QC174.12 .T694 2010  Unknown 
QC174.12 .T694 2010  Unknown 
6. Modern physics [2008]
 Harris, Randy, author.
 Second edition.  San Francisco : Pearson/Addison Wesley, ©2008.
 Description
 Book — xiv, 558, [64] pages : illustrations (some color) ; 27 cm
 Summary

 Dawn of a New Age Special Relativity Waves and Particles I: Electromagnetic Radiation Behaving as Particles Waves and Particles II: Matter Behaving as Waves Bound States: Simple Cases Unbound States: Obstacles, Tunneling and ParticleWave Propagation Quantum Mechanics in Three Dimensions and The Hydrogen Atom Spin and Atomic Physics Statistical Mechanics Bonding: Molecules and Solids Nuclear Physics Fundamental Particles and Interactions Appendices.
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QC21.3 .H37 2008  Unknown 
7. GRE physics test [2010]
 Fakhruddin, Hasan.
 6th ed., TestWare ed.  Piscataway, N.J. : Research & Education Association, ©2010.
 Description
 Book — xiii, 450 pages : illustrations ; 28 cm + 1 computer optical disc (4 3/4 in)
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QC32 .F267 2010  Unknown 
 Knight, Randall Dewey author.
 4/E.  [Boston] : Pearson, [2017]
 Description
 Book — 1 volume (various pagings) : illustrations (some color) ; 29 cm
 Summary

 I. Newton's Laws
 1. Concepts of Motion
 2. Kinematics in One Dimension
 3. Vectors and Coordinate Systems
 4. Kinematics in Two Dimensions
 5. Force and Motion
 6. Dynamics I: Motion Along a Line
 7. Newton's Third Law
 8. Dynamics II: Motion in a Plane II. Conservation Laws
 9. Work and Kinetic Energy
 10. Interactions and Potential Energy
 11. Impulse and Momentum III. Applications of Newtonian Mechanics
 12. Rotation of a Rigid Body
 13. Newton's Theory of Gravity
 14. Fluids and Elasticity IV. Oscillations and Waves
 15. Oscillations
 16. Traveling Waves
 17. Superposition V. Thermodynamics
 18. A Macroscopic Description of Matter
 19. Work, Heat, and the First Law of Thermodynamics
 20. The Micro/Macro Connection
 21. Heat Engines and Refrigerators VI. Electricity and Magnetism
 22. Electric Charges and Forces
 23. The Electric Field
 24. Gauss's Law
 25. The Electric Potential
 26. Potential and Field
 27. Current and Resistance
 28. Fundamentals of Circuits
 29. The Magnetic Field
 30. Electromagnetic Induction
 31. Electromagnetic Fields and Waves
 32. AC Circuits VII. Optics
 33. Wave Optics
 34. Ray Optics
 35. Optical Instruments VIII. Relativity and Quantum Physics
 36. Relativity.
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QC23.2 .K65 2017  Unknown 
QC23.2 .K65 2017  Unknown 
QC23.2 .K65 2017  Unknown 
9. How to teach quantum physics to your dog [2009]
 Orzel, Chad.
 1st Scribner trade pbk. ed.  New York : Scribner, 2010. ©2009.
 Description
 Book — viii, 241 pages : illustrations ; 22 cm
 Summary

 Why talk to your dog about physics? : an introduction to quantum physics
 Which way? both ways : particlewave duality
 Where's my bone? : the Heisenberg Uncertainty Principle
 Schrödinger's Dog : the Copenhagen interpretation
 Many worlds, many treats : the manyworlds interpretation
 Are we there yet? : the quantum Zeno effect
 No digging required : quantum tunneling
 Spooky barking at a distance : quantum entanglement
 Beam me a bunny : quantum teleportation
 Bunnies made of cheese : virtual particles and quantum electrodynamics
 Beware of evil squirrels : misuses of quantum physics.
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QC24.5 .O79 2010  Unknown 
10. Modern classical physics : optics, fluids, plasmas, elasticity, relativity, and statistical physics [2017]
 Thorne, Kip S., author.
 Princeton, New Jersey : Princeton University Press, [2017]
 Description
 Book — xl, 1511 pages : illustrations ; 27 cm
 Summary

 Preface
 Acknowledgments
 Part I. Foundations. Newtonian physics : geometric viewpoint ; Special relativity : geometric viewpoint
 Part II. Statistical physics. Kinetic theory ; Statistical mechanics ; Statistical thermodynamics ; Random processes
 Part III. Optics. Geometric optics ; Diffraction ; Interference and coherence ; Nonlinear optics
 Part IV. Elasticity. Elastostatics ; Elastodynamics
 Part V. Fluid dynamics. Foundations of fluid dynamics ; Vorticity ; Turbulence ; Waves ; Compressible and supersonic flow ; Convection ; Magnetohydrodynamics
 Part VI. Plasma physics. The particle kinetics of plasma ; Waves in cold plasmas : twofluid formalism ; Kinetic theory of warm plasmas ; Nonlinear dynamics of plasmas
 Part VII. General relativity. From special to general relativity ; Fundamental concepts of general relativity ; Relativistic stars and black holes ; Gravitational waves and experimental tests of general relativity ; Cosmology.
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QC21.3 .T46 2017  Unknown 2hour loan 
QC21.3 .T46 2017  Unknown 2hour loan 
PHYSICS26201
 Course
 PHYSICS26201  General Relativity
 Instructor(s)
 Blandford, Roger
 Czerski, Helen, 1978 author.
 First American edition 2017.  New York ; London : W.W. Norton & Company, 2017.
 Description
 Book — 275 pages ; 25 cm
 Summary

 Popcorn and rockets
 What goes up must come down
 Small is beautiful
 A moment in time
 Making waves
 Why don't ducks get cold feet?
 Spoons, spirals and Sputnik
 When opposites attract
 A sense of perspective.
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QC75 .C94 2017  Unknown 
 Young, Hugh D.
 14th edition.  [Boston] : Pearson, [2016]
 Description
 Book — 1 volume (various pagings) : color illustrations ; 29 cm
 Summary

 Mechanics. Units, physical quantities, and vectors ; Motion along a straight line ; Motion in two or three dimensions ; Newton's laws of motion ; Applying Newton's laws ; Work and kinetic energy ; Potential energy and energy conservation ; Momentum, impulse, and collisions ; Rotation of rigid bodies ; Dynamics of rotational motion ; Equilibrium and elasticity ; Fluid mechanics ; Gravitation ; Periodic motion
 Waves/acoustics. Mechanical waves ; Sound and hearing
 Thermodynamics. Temperature and heat ; Thermal properties of matter ; The first law of thermodynamics ; The second law of thermodynamics
 Electromagnetism. Electric charge and electric field ; Gauss's law ; Electric potential ; Capacitance and dielectrics ; Current, resistance, and electromotive force ; Directcurrent circuits ; Magnetic field and magnetic forces ; Sources of magnetic field ; Electromagnetic induction ; Inductance ; Alternating current ; Electromagnetic waves
 Optics. The nature and propagation of light ; Geometric optics ; Interference ; Diffraction
 Modern physics. Relativity ; Photons : light waves behaving as particles ; Particles behaving as waves ; Quantum mechanics I : wave functions ; Quantum mechanics II : atomic structure ; Molecules and condensed matter ; Nuclear physics ; Particle physics and cosmology
 Appendices. A: The international system of units ; B: Useful mathematical relations ; C: The Greek alphabet ; D: Periodic table of the elements ; E: Unit conversion factors ; F: Numerical constants
 Answers to oddnumbered problems.
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QC21.3 .Y68 2016  Unknown 
QC21.3 .Y68 2016  Unknown 
QC21.3 .Y68 2016  Unknown 
 Penrose, Roger, author.
 Princeton, New Jersey : Princeton University Press, [2016]
 Description
 Book — xvi, 501 pages : illustrations ; 25 cm
 Summary

 Acknowledgements ix Preface xi Are fashion, faith, or fantasy relevant to fundamental science? xi 1 Fashion 1 1.1 Mathematical elegance as a driving force 1 1.2 Some fashionable physics of the past 10 1.3 Particlephysics background to string theory 17 1.4 The superposition principle in QFT 20 1.5 The power of Feynman diagrams 25 1.6 The original key ideas of string theory 32 1.7 Time in Einstein's general relativity 42 1.8 Weyl's gauge theory of electromagnetism 52 1.9 Functional freedom in KaluzaKlein and string models 59 1.10 Quantum obstructions to functional freedom? 69 1.11 Classical instability of higherdimensional string theory 77 1.12 The fashionable status of string theory 82 1.13 Mtheory 90 1.14 Supersymmetry 95 1.15 AdS/CFT 104 1.16 Braneworlds and the landscape 117 2 Faith 121 2.1 The quantum revelation 121 2.2 Max Planck's E = hnu 126 2.3 The waveparticle paradox 133 2.4 Quantum and classical levels: C, U, and R 138 2.5 Wave function of a pointlike particle 145 2.6 Wave function of a photon 153 2.7 Quantum linearity 158 2.8 Quantum measurement 164 2.9 The geometry of quantum spin 174 2.10 Quantum entanglement and EPR effects 182 2.11 Quantum functional freedom 188 2.12 Quantum reality 198 2.13 Objective quantum state reduction: a limit to the quantum faith? 204 3 Fantasy 216 3.1 The Big Bang and FLRW cosmologies 216 3.2 Black holes and local irregularities 230 3.3 The second law of thermodynamics 241 3.4 The Big Bang paradox 250 3.5 Horizons, comoving volumes, and conformal diagrams 258 3.6 The phenomenal precision in the Big Bang 270 3.7 Cosmological entropy? 275 3.8 Vacuum energy 285 3.9 Inflationary cosmology 294 3.10 The anthropic principle 310 3.11 Some more fantastical cosmologies 323 4 A New Physics for the Universe? 334 4.1 Twistor theory: an alternative to strings? 334 4.2 Whither quantum foundations? 353 4.3 Conformal crazy cosmology? 371 4.4 A personal coda 391 Appendix A Mathematical
 Appendix 397 A.1 Iterated exponents 397 A.2 Functional freedom of fields 401 A.3 Vector spaces 407 A.4 Vector bases, coordinates, and duals 413 A.5 Mathematics of manifolds 417 A.6 Manifolds in physics 425 A.7 Bundles 431 A.8 Functional freedom via bundles 439 A.9 Complex numbers 445 A.10 Complex geometry 448 A.11 Harmonic analysis 458 References 469 Index 491.
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QC6 .P367 2016  Unknown 
14. Now : the physics of time [2016]
 Muller, R. (Richard) author.
 First edition.  New York : W.W. Norton & Company, [2016]
 Description
 Book — 364 pages : illustrations ; 25 cm
 Summary

 Part I: Amazing time. The entangled enigma ; Einstein's childhood regression ; The leaping now ; Contradictions and paradoxes ; Lightspeed limit, lightspeed loophole ; Imaginary time ; To infinity and beyond
 Part II: Broken arrow. An arrow of confusion ; Demystifying entropy ; Mystifying entropy ; Time explained ; Our unlikely universe ; The universe erupts ; The end of time ; Throwing entropy under the bus ; Alternative arrows
 Par III: Spooky physics. A cat both dead and alive ; Tickling the quantum ghost ; Einstein is spooked ; Backward time travel observed
 Part IV: Physics and reality. Beyond physics ; Cogito ergo sum ; Free will
 Part V: Now. The 4D Big Bang ; The meaning of now.
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QC173.59 .S65 M85 2016  Unknown 
15. Chemical and biochemical physics : a systematic approach to experiments, evaluation, and modeling [2016]
 Oakville, ON, Canada ; Waretown, NJ, USA : Apple Academic Press Inc., [2016]
 Description
 Book — xvi, 339 pages : illustrations ; 24 cm
 Summary

 Chemical Physics. Halogen Containing Simple and Complicated Block Copolyethers. Welding Modes and Their Influence on the Adhesions. Kinetics and Mechanism of Polymer Dispersion Formation on Based of (Meth) Acrylates. Films and Nonwoven Materials Based on Polyurethane, the StyreneAcrylonitrile Copolymer, and Their Blends. Investigation of Polypropylene/LowDensity Polyethylene Blends. Elastic Modulus of Poly(Ethylene Terephthalate)/Poly(Butylene Terephthalate) Blends. LowToxic NitrogenContaining Antioxidant for Polyvinyl Chloride. Impact of Organosilicone Modifiers on the Properties of Ethylene Copolymers. UV Spectroscopy Study of 1,2DihydroC60Fullerenes in Polar Solvent. Hexagonal Structures in Physical Chemistry and Physiology. Complex Formation Between Alk4NBr and 1,1,3Trimethyl3(4Methylphenyl)Butyl Hydroperoxide on the Base of NMR 1H Investigation. Polyamides and Polyamidoether in Macromolecules Containing Triphenylmethane Groups. A Detailed Review on Nanofibers Production and Applications. Biochemical Physics. Composition of Bioregulator Obtained from Garlic Allium Sativum L. Morphological and Bioenergetical Characteristics of Mitochondria. Halophilic Microorganisms from Saline Wastes of Starobin Potash Deposit. Biochemical Characteristics of Insects Hermetia Illucens. Peptides of a Plant Origin Exerting Hepatoprotective Properties. Index.
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QC23 .C5115 2016  Unknown 
 Molitoris, Joseph J.
 Piscataway, N.J. : Research and Education Association, ©2003.
 Description
 Book — x, 396 pages : illustrations ; 26 cm.
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QC32 .M645 2003  Unknown 
17. Physics for scientists and engineers [2014 ]
 Serway, Raymond A.
 Ninth edition.  Boston, MA : Brooks/Cole, Cengage Learning, [2014]
 Description
 Book — volumes : illustrations (chiefly color) ; 29 cm
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QC21.3 .S467 2014 V.1  Unknown 
 Calvin, Scott.
 First semester first edition.  North Charleston, South Carolina : CreateSpace, [2015]
 Description
 Book — 116 pages : illustrations ; 26 cm
 Summary

We Can Do It! is a problemsolving guide, in the form of a graphic novel, aimed at students in collegelevel general physics courses. Instead of just providing brief answers to sample questions or discussions of physics concepts without showing how to apply them to difficult problems, We Can Do It! stresses how to approach problems, what to do if you get stuck, and techniques that can be applied broadly
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QC24.5 .C35 2015  Unknown 
19. Modern atomic physics [2015]
 Natarajan, Vasant, author.
 Boca Raton : CRC Press, Taylor & Francis Group, [2015]
 Description
 Book — xxi, 418 pages : illustrations ; 25 cm
 Summary

 Metrology Measurement systems Universal units and fundamental constants Atomic units
 Preliminaries Classical harmonic oscillator Quantum harmonic oscillator Coherent states Squeezed states Radiation
 Atoms Spectroscopic notation Energy levels of one electron atoms Interaction with magnetic fields Atoms in static electric fieldsStark effect Permanent atomic electric dipole moment (EDM) Atoms in oscillating electric fields Strong oscillating fieldsDressed atoms
 Nucleus Isotope effects Hyperfine structure
 Resonance Introduction Magnetic resonance Magnetic resonance of quantized spin Resonance in a two state system Density matrix Resonance of a realistic two state system
 Interaction Interaction of EM radiation with atoms Selection rules and angular distribution Transition rates Spontaneous emission Orderofmagnitude of spontaneous emission Saturation intensities
 Multiphoton Two photon absorption Two photon deexcitation processes Raman processes Dressed atom for multiphoton processes
 Coherence Coherence in single atoms Coherence in localized ensembles Coherence in extended ensembles Mixed examples Coherent control in multilevel atoms Other effects in coherent control
 Lineshapes Low intensity and simple collisions Relativistic effects in emission and absorption Lineshape of atoms in a gas Confined particles Gaussian beam optics
 Spectroscopy Alkali atoms Experimental tools Dopplerfree techniques Nonlinear magnetooptic rotationNMOR
 Cooling and Trapping Spontaneous force Stimulated force Magnetic trapping and evaporative cooling BoseEinstein condensation Optical tweezers Ion trapping
 Appendices A. Standards B. What is a photon? C. Einstein as armchair detective: The case of stimulated radiation D. Frequency comb
 Index
 Problems appear at the end of each chapter.
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 Metrology. Preliminaries. Atoms. Nucleus. Resonance. Interaction. Multiphoton. Coherence. Lineshapes. Spectroscopy. Cooling and Trapping. Appendices. Index.
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Much of our understanding of physics in the last 30plus years has come from research on atoms, photons, and their interactions. Collecting information previously scattered throughout the literature, Modern Atomic Physics provides students with one unified guide to contemporary developments in the field.After reviewing metrology and preliminary mat.
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QC173 .N325 2015  Unknown 
20. 3,000 solved problems in physics [2011]
 Halpern, Alvin M.
 New York : McGrawHill, ©2011.
 Description
 Book — xxviii, 751 pages : illustrations ; 28 cm.
 Summary

 Mathematical introduction
 Equilibrium of concurrent forces
 Kinematics in one dimension
 Newton's laws of motion
 Motion in a plane I
 Motion in a plane II
 Work and energy
 Power and simple machines
 Impulse and momentum
 Statics of rigid bodies
 Rotational motion I: kinematics and dynamics
 Rotational motion II: kinetic energy, angular impulse, angular momentum
 Matter in bulk
 Simple harmonic motion
 Hydrostatics
 Hydrodynamics
 Temperature and thermal expansion
 Heat and calorimetry
 Heat transfer
 Gas laws and kinetic theory
 The first law of thermodynamics
 The second law of thermodynamics
 Wave motion
 Sound
 Coulomb's law and electric fields
 Electric potential and capacitance
 Simple electric circuits
 The magnetic field
 Magnetic properties of matter
 Induced EMF: generators and motors
 Inductance
 Electric circuits
 Electromagnetic waves
 Light and optical phenomena
 Mirrors, lenses, and optical instruments
 Interference, diffraction, and polarization
 Special relativity
 Particles of light and waves of matter
 Modern physics: atoms, nuclei, solidstate electronics.
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QC32 .H325 2011  Unknown 