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1. Modern classical physics : optics, fluids, plasmas, elasticity, relativity, and statistical physics [2017]
 Thorne, Kip S., author.
 Princeton : Princeton University Press, 2017.
 Description
 Book — xl, 1511 pages : illustrations (some color) ; 26 cm
 Summary

This firstyear, graduatelevel text and reference book covers the fundamental concepts and twentyfirstcentury applications of six major areas of classical physics that every masters or PhDlevel physicist should be exposed to, but often isn't: statistical physics, optics (waves of all sorts), elastodynamics, fluid mechanics, plasma physics, and special and general relativity and cosmology. Growing out of a fullyear course that the eminent researchers Kip Thorne and Roger Blandford taught at Caltech for almost three decades, this book is designed to broaden the training of physicists. Its six main topical sections are also designed so they can be used in separate courses, and the book provides an invaluable reference for researchers. Presents all the major fields of classical physics except three prerequisites: classical mechanics, electromagnetism, and elementary thermodynamics Elucidates the interconnections between diverse fields and explains their shared concepts and tools Focuses on fundamental concepts and modern, realworld applications Takes applications from fundamental, experimental, and applied physics; astrophysics and cosmology; geophysics, oceanography, and meteorology; biophysics and chemical physics; engineering and optical science and technology; and information science and technology Emphasizes the quantum roots of classical physics and how to use quantum techniques to elucidate classical concepts or simplify classical calculations Features hundreds of color figures, some five hundred exercises, extensive crossreferences, and a detailed index An online illustration package is available to professors.
(source: Nielsen Book Data) 9780691159027 20170907
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QC21.3 .T46 2015  Unknown 
QC21.3 .T46 2015  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.
 (source: Nielsen Book Data)
(source: Nielsen Book Data) 9780134081496 20171204
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QC23.2 .K65 2017  Unknown 2hour loan 
QC23.2 .K65 2017  Unknown 2hour loan 
QC23.2 .K65 2017  Unknown 2hour loan 
PHYSICS41E01, PHYSICS41E02
 Course
 PHYSICS41E01  Mechanics, Concepts, Calculations, and Context
 Instructor(s)
 Church, Sarah Elizabeth
 Course
 PHYSICS41E02  Mechanics, Concepts, Calculations, and Context
 Instructor(s)
 Church, Sarah Elizabeth
 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.
 (source: Nielsen Book Data)
(source: Nielsen Book Data) 9780691119793 20161128
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QC6 .P367 2016  Unknown 
4. 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.
(source: Nielsen Book Data) 9780393285239 20161124
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QC173.59 .S65 M85 2016  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 2hour loan 
QC21.3 .Y68 2016  Unknown 2hour loan 
QC21.3 .Y68 2016  Unknown 2hour loan 
PHYSICS4101
 Course
 PHYSICS4101  Mechanics
 Instructor(s)
 Lee, Young
6. Conquering the physics GRE [2015]
 Kahn, Yoni.
 Second edition, printing 1.1 (updated February 2015).  [Cambridge, MA] : [s.n], 2015.
 Description
 Book — xvi, 437 p. : ill. ; 28 cm
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QC32 .K346 2015  Unknown 
7. GRE physics practice questions [2015]
 2nd edition.  Boston, MA : Sterling Test Prep, [2015]
 Description
 Book — 629 pages : illustrations ; 28 cm
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QC32 .G69 2015  Unknown 
8. Matter & interactions [2015]
 Chabay, Ruth W.
 4th ed.  Hoboken, N.J. : Wiley, c2015.
 Description
 Book — xvi, 992 pages, 15 variously numbered pages : col. ill. ; 29 cm
 Summary

 VOLUME I Modern Mechanics
 1 Interactions and Motion
 2 The Momentum Principle
 3 The Fundamental Interactions
 4 Contact Interactions
 5 Determining Forces from Motion
 6 The Energy Principle
 7 Internal Energy
 8 Energy Quantization
 9 Translational, Rotational, and Vibrational Energy
 10 Collisions
 11 Angular Momentum
 12 Entropy: Limits on the Possible VOLUME II Electric and Magnetic Interactions
 13 Electric Field
 14 Electric Fields and Matter
 15 Electric Field of Distributed Charges
 16 Electric Potential
 17 Magnetic Field
 18 Electric Field and Circuits
 19 Circuit Elements
 20 Magnetic Force
 21 Patterns of Field in Space
 22 Faraday s Law
 23 Electromagnetic Radiation The Supplements can be found at the web site, ww.wiley.com/college/chabay Supplement S1 Gases and Heat Engines S11 Supplement S2 Semiconductor Devices S21 Supplement S3 Waves S31.
 (source: Nielsen Book Data)
(source: Nielsen Book Data) 9781118875865 20160618
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QC23.2 .C43 2015  Unknown 
9. 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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(source: Nielsen Book Data) 9781482242034 20160619
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QC173 .N325 2015  Unknown 
 Sprott, Julien C. author.
 Madison, Wisconsin : The University of Wisconsin Press, [2015]
 Description
 Book — xii, 290 pages : illustrations (chiefly color) ; 29 cm
 Summary

Wow! How? Few techniques are as effective at generating interest in science as dramatic demonstrations. This fully illustrated sourcebook describes eightyfive physics demonstrations suitable for performance both inside and outside classrooms. These demonstrations will fascinate and amaze while teaching the wonders and practical science of physics. Videos for the demonstrations are online at http://physicsdemonstrationsvideos.com/. Dr. Sprott shares demonstrations tested over many years in his popular public lectures on oThe Wonders of Physics, o which appeal to general audiences and to students from grade school to graduate school. Science teachers at all levels will find a wealth of detail showing how to present these demonstrations to students with flair. Science professionals will find indispensable information for creating educational and entertaining public programs. Organized to teach the six major areas of classical physicsumotion, heat, sound, electricity, magnetism, and lightu Physics Demonstrations includes: a brief description of each demonstration materials lists, with sources for common materials preparation procedures discussions of the physics principles demonstrated potential safety hazards references for further information.
(source: Nielsen Book Data) 9780299304706 20160618
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QC33 .S675 2015  Unknown 
 Amore, Paolo, 1968 author.
 Hackensack, New Jersey : World Scientific, [2015]
 Description
 Book — x, 271 pages : illustrations ; 23 cm
 Summary

 Introduction Quantum Mechanics: Solutions to the Schrodinger Equation Formal Developments Applications of Quantum Mechanics: Approximation Methods for Bound States Scattering Theory TimeDependent Perturbation Theory Electromagnetic Radiation and Quantum Electrodynamics Relativistic Quantum Field Theory: Discrete Symmetries Heisenberg Picture Feynman Rules for QCD Problems and Appendices: The TwoBody Problem Charged Particle in External Electromagnetic Field.
 (source: Nielsen Book Data)
(source: Nielsen Book Data) 9789814618953 20160617
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QC32 .A556 2015  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 
 Feynman, Richard P. (Richard Phillips), 19181988.
 New Millennium edition.  New York : Basic Books, c2014.
 Description
 Book — 1 volume (various pagings) : illustrations ; 28 cm
 Summary

Combined into one volume for the first time, the updated and clarified Exercises for the Feynman Lectures on Physics provides comprehensive, handson practice in all the most important areas of physicsfrom Newtonian mechanics through the theory of relativity and quantum mechanics. A perfect complement to The Feynman Lectures on Physics, these exercises have all been assigned in Caltech's mandatory twoyear introductory physics course, either when Richard Feynman was teaching it, or during the nearly two decades that followed when The Feynman Lectures on Physics was used as the textbook. With this modern, easytouse volume, students of physics will have a chance to apply what they have learned in the Lectures and to enhance and reinforce the concepts taught by the inimitable Richard Feynman.
(source: Nielsen Book Data) 9780465060719 20160618
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QC23 .F47 2014  Unknown 
 Barrett, Thomas E., 1965
 Hoboken, N.J. : Wiley, c2014.
 Description
 Book — viii, 322 p. : ill. ; 28 cm
 Summary

The 10th edition of Halliday's Fundamentals of Physics building upon previous issues by offering several new features and additions. Examples include a new print component will revised to conform to the Version 5 design; chapter sections organized and numbered to match the Concept Modules; Learning Objectives have been added; illustrations changed to reflect (and advertise) multimedia versions available in WileyPLUS; and new problems provide a means of assigning the multimedia assets. The new edition offers most accurate, extensive and varied set of assessment questions of any course management program in addition to all questions including some form of question assistance  including answer specific feedback  to facilitate success. The text also offers multimedia presentations (videos and animations) of much of the material that provide an alternative pathway through the material for those who struggle with reading scientific exposition. Furthermore, the book includes math review content in both a selfstudy module for more indepth review and also in justintime math videos for a quick refresher on a specific topic. The Halliday content is widely accepted as clear, correct, and complete. The endofchapters problems are without peer. The new design, which was introduced in 9e continues with 10e, making this new edition of Halliday the most accessible and readerfriendly book on the market.
(source: Nielsen Book Data) 9781118230787 20160614
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QC21.3 .H35 2014 STUDY GUIDE  Unknown 
15. Halliday & Resnick fundamentals of physics [2014]
 Walker, Jearl, 1945 author.
 Tenth edition.  Hoboken, NJ : John Wiley & Sons, Inc., [2014]
 Description
 Book — 1 volume (various pagings) : illustrations (some color) ; 29 cm
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QC21.3 .H35 2014  Unknown 
 Ferreira, Pedro G.
 Boston : Houghton Mifflin Harcourt, 2014.
 Description
 Book — xv, 288 pages ; 24 cm
 Summary

 Prologue
 If a Person Falls Freely
 The Most Valuable Discovery
 Correct Mathematics, Abominable Physics
 Collapsing Stars
 Completely Cuckoo
 Radio Days
 Wheelerisms
 Singularities
 Unification Woes
 Seeing Gravity
 The Dark Universe
 The End of Spacetime
 A Spectacular Extrapolation
 Something Is Going to Happen.
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QC173.6 .F47 2014  Unknown 
 McKinley, Christine (Mechanical engineer), author.
 First edition: June 2014.  New York, New York : Penguin Group, 2014.
 Description
 Book — xvi, 247 pages : illustrations ; 21 cm
 Summary

 Test your hypothesis: the scientific method
 Make space: nature abhors a vacuum
 Keep it real: the necessity of numbers
 Don't spin: conservation of energy
 Know your type: the chemistry of attraction and bonding
 Don't answer the door in your underwear: the ideal gas law
 Know you are not alone: the equality of gravity
 Clearly state the problem: force and the free body diagram
 Use a crowbar or two: mechanical advantage
 Love your rough spots: friction
 Check your direction: motion and momentum
 Let the universe make the rules
 Prepare to float: buoyancy
 Let it flow: fluids
 Control your chaos: second law of thermodynamics
 Know when it's time to take cover: waves
 Watch a boiling pot...or don't: phase changes
 Use your power wisely: electricity and magnetism
 Cultivate mystery: the elusive electron
 Respect other points of view: relativity
 Enjoy the miles to go: the four fundamental forces.
Proud science geek McKinley offers a guided tour of the physical world, explaining everything from sound and light waves to relativity. She offers advice on how to use them in our everyday lives and more glamorous pursuits. No equations, numbers, or tricky concepts  just a romp through the basics of physics and the beauty of the organized universe.
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QC24.5 .M35 2014  Unknown 
18. 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 
19. Physics : principles with applications [2014]
 Giancoli, Douglas C.
 7th ed.  Upper Saddle River, N.J. : Pearson/Prentice Hall, c2014.
 Description
 Book — xix, 983, 71 p. : ill. (some col.) ; 28 cm.
 Summary

 * Introduction, Measurement, Estimating * Describing Motion: Kinematics in One Dimension * Kinematics in Two Dimensions Vectors * Dynamics: Newton's Laws of Motion * Circular Motion Gravitation * Work and Energy * Linear Momentum * Rotational Motion * Static Equilibrium Elasticity and Fracture * Fluids * Oscillations and Waves * Sound * Temperature and Kinetic Theory * Heat * The Laws of Thermodynamics.
 (source: Nielsen Book Data)
 Introduction, Measurement, Estimating </li> Describing Motion: Kinematics in One Dimension </li> Kinematics in Two Dimensions Vectors </li> Dynamics: Newton’s Laws of Motion </li> Circular Motion Gravitation </li> Work and Energy </li> Linear Momentum </li> Rotational Motion </li> Static Equilibrium Elasticity and Fracture </li> Fluids </li> Oscillations and Waves </li> Sound </li> Temperature and Kinetic Theory </li> Heat </li> The Laws of Thermodynamics </li> Electric Charge and Electric Field </li> Electric Potential </li> Electric Currents </li> DC Circuits </li> Magnetism </li> Electromagnetic Induction and Faraday’s Law </li> Electromagnetic Waves </li> Light: Geometric Optics </li> The Wave Nature of Light </li> Optical Instruments </li> The Special Theory of Relativity </li> Early Quantum Theory and Models of the Atom </li> Quantum Mechanics of Atoms </li> Molecules and Solids </li> Nuclear Physics and Radioactivity </li> Nuclear Energy Effects and Uses of Radiation </li> Elementary Particles </li> Astrophysics and Cosmology</li>.
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(source: Nielsen Book Data) 9780321762429 20160612
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QC23 .G399 2014  Unknown 2hour loan 
QC23 .G399 2014  Unknown 2hour loan 
QC23 .G399 2014  Unknown 2hour loan 
PHYSICS18N01, PHYSICS2301
 Course
 PHYSICS18N01  Frontiers in Theoretical Physics and Cosmology
 Instructor(s)
 Kallosh, Renata
 Course
 PHYSICS2301  Electricity and Optics
 Instructor(s)
 Linde, Andrei
 Liao, SenBen.
 Hoboken, NJ : John Wiley & Sons, c2014.
 Description
 Book — 509 pages : ill. ; 28 cm
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QC21.3 .H35 2014 SOLUTIONS MANUAL  Unknown 