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دانلود کتاب University Physics with Modern Physics (15th Edition)
دانلود کتاب فیزیک دانشگاه با فیزیک مدرن (چاپ پانزدهم)
مشخصات کتاب
University Physics with Modern Physics (15th Edition)
ویرایش: 15 نویسندگان: Hugh D. Young, Roger A. Freedman سری: ISBN (شابک) : 0135159555, 9780135159552 ناشر: Pearson سال نشر: 2019 تعداد صفحات: 1596 زبان: English فرمت فایل : PDF (درصورت درخواست کاربر به PDF، EPUB یا AZW3 تبدیل می شود) حجم فایل: 109 مگابایت
قیمت کتاب (تومان) : 41,000
در صورت تبدیل فایل کتاب University Physics with Modern Physics (15th Edition) به فرمت های PDF، EPUB، AZW3، MOBI و یا DJVU می توانید به پشتیبان اطلاع دهید تا فایل مورد نظر را تبدیل نمایند.
توجه داشته باشید کتاب فیزیک دانشگاه با فیزیک مدرن (چاپ پانزدهم) نسخه زبان اصلی می باشد و کتاب ترجمه شده به فارسی نمی باشد. وبسایت اینترنشنال لایبرری ارائه دهنده کتاب های زبان اصلی می باشد و هیچ گونه کتاب ترجمه شده یا نوشته شده به فارسی را ارائه نمی دهد.
توضیحاتی در مورد کتاب فیزیک دانشگاه با فیزیک مدرن (چاپ پانزدهم)
برای دورههای فیزیک مبتنی بر حساب دیفرانسیل و انتگرال.
تمرین کامل میشود: تمرین هدایتشده به دانشآموزان کمک میکند تا به حلکنندههای ماهر مسئله تبدیل شوند. b>
تمرین کامل میکند. ویرایش پانزدهم جدید فیزیک دانشگاهی با فیزیک مدرن برگرفته از انبوهی از بینش های داده از صدها استاد و هزاران کاربر دانشجو است تا به یکی از آنها بپردازد. یکی از بزرگترین چالشهای دانشآموزان در دورههای مقدماتی فیزیک: دیدن الگوها و ایجاد ارتباط بین انواع مسئله. دانشآموزان یاد میگیرند که تشخیص دهند چه زمانی باید از مراحل مشابه در حل یک نوع مسئله استفاده کنند و به جای وصل کردن یک معادله، درک درستی از رویکردهای حل مسئله ایجاد کنند.
این نسخه جدید تمایل دانشآموزان را به تمرکز بر اشیاء، موقعیتها، اعداد و سؤالات مطرح شده در یک مسئله، به جای تشخیص اصل اساسی یا نوع مشکل، مورد توجه قرار میدهد. گزارههای مفهوم کلیدی جدید در پایان مثالهای کار شده با شناسایی ایده اصلی مورد استفاده در راهحل برای کمک به دانشآموزان در شناخت مفاهیم زیربنایی و استراتژی برای مشکل داده شده، به این چالش میپردازند. نمونههای کلیدی جدید مسائل مربوط به تغییرات در بخشهای تمرین هدایتشده جدید ظاهر میشوند و مسائل را بر اساس نوع گروهبندی میکنند تا به دانشآموزان این امکان را بدهند که تشخیص دهند که چه زمانی میتوان مسائل را به روشی مشابه، بدون توجه به عبارت یا اعداد، حل کرد. این مجموعه مشکلات داربستی به دانشآموزان کمک میکند تا الگوها را ببینند، بین مشکلات ارتباط برقرار کنند و برای مقابله با انواع مشکلات در زمان امتحان اعتماد به نفس ایجاد کنند.
رویکرد حل مسئله کاملاً یکپارچه در تسلط بر فیزیک به دانشآموزان پشتیبانی آموزشی و اصلاح بهموقع در حین حل مشکلات میدهد و همه مسائل انتهای فصل را به هم پیوند میدهد. مستقیماً به eText برای راهنمایی بیشتر.
همچنین با Mastering Physics موجود است
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اگر می خواهید هم متن فیزیکی و هم تسلط فیزیک را بخرید، عبارت:
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توضیحاتی درمورد کتاب به خارجی
For courses in calculus-based physics.
Practice makes perfect: Guided practice helps students develop into expert problem solvers
Practice makes perfect. The new 15th Edition of University Physics with Modern Physics draws on a wealth of data insights from hundreds of faculty and thousands of student users to address one of the biggest challenges for students in introductory physics courses: seeing patterns and making connections between problem types. Students learn to recognize when to use similar steps in solving the same problem type and develop an understanding for problem solving approaches, rather than simply plugging in an equation.
This new edition addresses students’ tendency to focus on the objects, situations, numbers, and questions posed in a problem, rather than recognizing the underlying principle or the problem’s type. New Key Concept statements at the end of worked examples address this challenge by identifying the main idea used in the solution to help students recognize the underlying concepts and strategy for the given problem. New Key Example Variation Problems appear within new Guided Practice sections and group problems by type to give students practice recognizing when problems can be solved in a similar way, regardless of wording or numbers. These scaffolded problem sets help students see patterns, make connections between problems, and build confidence for tackling different problem types when exam time comes.
The fully integrated problem-solving approach in Mastering Physics gives students instructional support and just-in-time remediation as they work through problems, and links all end-of-chapter problems directly to the eText for additional guidance.
Also available with Mastering Physics
By combining trusted author content with digital tools and a flexible platform, Mastering personalizes the learning experience and improves results for each student.Now providing a fully integrated experience, the eText is linked to every problem within Mastering for seamless integration between homework problems, practice problems, textbook, worked examples, and more.
Note: You are purchasing a standalone product; Mastering Physics does not come packaged with this content. Students, if interested in purchasing this title with Mastering Physics , ask your instructor for the correct package ISBN and Course ID. Instructors, contact your Pearson representative for more information.
If you would like to purchase both the physical text and Mastering Physics , search for:
0135159709 / 9780135159705 University Physics with Modern Physics Plus Mastering Physics with Pearson eText -- Access Card Package
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- 0135159555 / 9780135159552 University Physics with Modern Physics
فهرست مطالب
Front Matter Title Unit Conversion Factors Brief Contents Applications About the Authors How to Succeed in Physics by Really Trying Preface Detailed Contents MECHANICS 1. Units, Physical Quantities, and Vectors 1.1 - The Nature of Physics 1.2 - Solving Physics Problems 1.3 - Standards and Units 1.4 - Using and Converting Units 1.5 - Uncertainty and Significant Figures 1.6 - Estimates and Orders of Magnitude 1.7 - Vectors and Vector Addition 1.8 - Components of Vectors 1.9 - Unit Vectors 1.10 - Products of Vectors Chapter 1 Summary Problems 2. Motion Along a Straight Line 2.1 - Displacement, Time, and Average Velocity 2.2 - Instantaneous Velocity 2.3 - Average and Instantaneous Acceleration 2.4 - Motion with Constant Acceleration 2.5 - Freely Falling Objects 2.6 - Velocity and Position by Integration Chapter 2 Summary Problems 3. Motion in Two or Three Dimensions 3.1 - Position and Velocity Vectors 3.2 - The Acceleration Vector 3.3 - Projectile Motion 3.4 - Motion in a Circle 3.5 - Relative Velocity Chapter 3 Summary Problems 4. Newton\'s Laws of Motion 4.1 - Forces and Interactions 4.2 - Newton\'s First Law 4.3 - Newton\'s Second Law 4.4 - Mass and Weight 4.5 - Newton\'s Third Law 4.6 - Free-Body Diagrams Chapter 4 Summary Problems 5. Applying Newton\'s Laws 5.1 - Using Newton\'s First Law: Particles in Equilibrium 5.2 - Using Newton\'s Second Law: Dynamics of Particles 5.3 - Friction Forces 5.4 - Dynamics of Circular Motion 5.5 - The Fundamental Forces of Nature Chapter 5 Summary Problems 6. Work and Kinetic Energy 6.1 - Work 6.2 - Kinetic Energy and the Work-Energy Theorem 6.3 - Work and Energy with Varying Forces 6.4 - Power Chapter 6 Summary Problems 7. Potential Energy and Energy Conservation 7.1 - Gravitational Potential Energy 7.2 - Elastic Potential Energy 7.3 - Conservative and Nonconservative Forces 7.4 - Force and Potential Energy 7.5 - Energy Diagrams Chapter 7 Summary Problems 8. Momentum, Impulse, and Collisions 8.1 - Momentum and Impulse 8.2 - Conservation of Momentum 8.3 - Momentum Conservation and Collisions 8.4 - Elastic Collisions 8.5 - Center of Mass 8.6 - Rocket Propulsion Chapter 8 Summary Problems 9. Rotation of Rigid Bodies 9.1 - Rotation of Rigid Bodies 9.2 - Rotation with Constant Angular Acceleration 9.3 - Relating Linear and Angular Kinematics 9.4 - Energy in Rotational Motion 9.5 - Parallel-Axis Theorem 9.6 - Moment of Inertia Calculations Chapter 9 Summary Problems 10. Dynamics of Rotational Motion 10.1 - Torque 10.2 - Torque and Angular Acceleration for a Rigid Body 10.3 - Rigid-Body Rotation About a Moving Axis 10.4 - Work and Power in Rotational Motion 10.5 - Angular Momentum 10.6 - Conservation of Angular Momentum 10.7 - Gyroscopes and Precession Chapter 10 Summary Problems 11. Equilibrium and Elasticity 11.1 - Conditions for Equilibrium 11.2 - Center of Gravity 11.3 - Solving Rigid-Body Equilibrium Problems 11.4 - Stress, Strain, and Elastic Moduli 11.5 - Elasticity and Plasticity Chapter 11 Summary Problems 12. Fluid Mechanics 12.1 - Gases, Liquids, and Density 12.2 - Pressure in a Fluid 12.3 - Buoyancy 12.4 - Fluid Flow 12.5 - Bernoulli\'s Equations 12.6 - Viscosity and Turbulence Chapter 12 Summary Problems 13. Gravitation 13.1 - Newton\'s Law of Graviation 13.2 - Weight 13.3 - Gravitational Potential Energy 13.4 - Motion of Satellites 13.5 - Kepler\'s Laws and the Motion of Planets 13.6 - Spherical Mass Distributions 13.7 - Apparent Weight and the Earth\'s Rotation 13.8 - Black Holes Chapter 13 Summary Problems 14. Periodic Motion 14.1 - Describing Oscillation 14.2 - Simple Harmonic Motion 14.3 - Energy in Simple Harmonic Motion 14.4 - Applications of Simple Harmonic Motion 14.5 - The Simple Pendulum 14.6 - The Physical Pendulum 14.7 - Damped Oscillations 14.8 - Forced Oscillations and Resonance Chapter 14 Summary Problems WAVES/ACOUSTICS 15. Mechanical Waves 15.1 - Types of Mechanical Waves 15.2 - Periodic Waves 15.3 - Mathematical Description of a Wave 15.4 - Speed of Transverse Wave 15.5 - Energy in Wave Motion 15.6 - Wave Interference, Boundary Conditions, and Superposition 15.7 - Standing Waves on a String 15.8 - Normal Modes of a String Chapter 15 Summary Problems 16. Sound and Hearing 16.1 - Sound Waves 16.2 - Speed of Sound Waves 16.3 - Sound Intensity 16.4 - Standing Waves and Normal Modes 16.5 - Resonance and Sound 16.6 - Interference of Waves 16.7 - Beats 16.8 - The Doppler Effect 16.9 - Shock Waves Chapter 16 Summary Problems THERMODYNAMICS 17. Temperature and Heat 17.1 - Temperature and Thermal Equilibirum 17.2 - Thermometers and Temperature Scales 17.3 - Gas Thermometers and The Kelvin Scale 17.4 - Thermal Expansion 17.5 - The Quantity of Heat 17.6 - Calorimetry and Phase Changes 17.7 - Mechanisms of Heat Transfer Chapter 17 Summary Problems 18. Thermal Properties of Matter 18.1 - Equations of State 18.2 - Molecular Properties of Matter 18.3 - Kinetic-Molecular Model of an Ideal Gas 18.4 - Heat Capacities 18.5 - Molecular Speeds 18.6 - Phases of Matter Chapter 18 Summary Problems 19. The First Law of Thermodynamics 19.1 - Thermodynamic Systems 19.2 - Work Done During Volume Changes 19.3 - Paths Between Thermodynamic States 19.4 - Internal Energy and the First Law of Thermodynamics 19.5 - Kinds of Thermodynamic Processes 19.6 - Internal Energy of an Ideal Gas 19.7 - Heat Capacities of an Ideal Gas 19.8 - Adiabatic Processes for an Ideal Gas Chapter 19 Summary Problems 20. The Second Law of Thermodynamics 20.1 - Directions of Thermodynamic Processes 20.2 - Heat Engines 20.3 - Internal Combustion Engines 20.4 - Refrigerators 20.5 - The Second Law of Thermodynamics 20.6 - The Carnot Cycle 20.7 - Entropy 20.8 - Microscopic Interpretation of Entropy Chapter 20 Summary Problems ELECTROMAGNETISM 21. Electric Charge and Electric Field 21.1 - Electric Charge 21.2 - Conductors, Insulators, and Induced Charges 21.3 - Coulomb\'s Law 21.4 - Electric Field and Electric Forces 21.5 - Electric-Field Calculations 21.6 - Electric Field Lines 21.7 - Electric Dipoles Chapter 21 Summary Problems 22. Gauss\'s Law 22.1 - Charge and Electric Flux 22.2 - Calculating Electric Flux 22.3 - Gauss\'s Law 22.4 - Applications of Gauss\'s Law 22.5 - Charges on Conductors Chapter 22 Summary Problems 23. Electric Potential 23.1 - Electric Potential Energy 23.2 - Electric Potential 23.3 - Calculating Electric Potential 23.4 - Equipotential Surfaces 23.5 - Potential Gradient Chapter 23 Summary Problems 24. Capacitance and Dielectrics 24.1 - Capacitors and Capacitance 24.2 - Capacitors in Series and Parallel 24.3 - Energy Storage in Capacitors and Electric-Field Energy 24.4 - Dielectrics 24.5 - Molecular Model of Induced Charge 24.6 - Gauss\'s Law in Dielectrics Chapter 24 Summary Problems 25. Current, Resistance, and Electromotive Force 25.1 - Current 25.2 - Resistivity 25.3 - Resistance 25.4 - Electromotive Force and Circuits 25.5 - Energy and Power in Electric Circuits 25.6 - Theory of Metallic Conduction Chapter 25 Summary Problems 26. Direct-Current Circuits 26.1 - Resistors in Series and Parallel 26.2 - Kirchhoff\'s Rules 26.3 - Electrical Measuring Instruments 26.4 - R-C Circuits 26.5 - Power Distribution Systems Chapter 26 Summary Problems 27. Magnetic Field and Magnetic Forces 27.1 - Magnetism 27.2 - Magnetic Field 27.3 - Magnetic Field Lines and Magnetic Flux 27.4 - Motion of Charged Particles in a Magnetic Field 27.5 - Applications of Motion of Charged Particles 27.6 - Magnetic Force on a Current-Carrying Conductor 27.7 - Force and Torque on a Current Loop 27.8 - The Direct-Current Motor 27.9 - The Hall Effect Chapter 27 Summary Problems 28. Sources of Magnetic Field 28.1 - Magnetic Field of a Moving Charge 28.2 - Magnetic Field of a Current Element 28.3 - Magnetic Field of a Straight Current-Carrying Conductor 28.4 - Force Between Parallel Conductors 28.5 - Magnetic Field of a Circular Current Loop 28.6 - Ampere\'s Law 28.7 - Applications of Ampere\'s Law 28.8 - Magnetic Materials Chapter 28 Summary Problems 29. Electromagnetic Induction 29.1 - Induction Experiments 29.2 - Faraday\'s Law 29.3 - Lenz\'s Law 29.4 - Motional EMF 29.5 - Induced Electric Fields 29.6 - Eddy Currents 29.7 - Displacement Current and Maxwell\'s Equations 29.8 - Superconductivity Chapter 29 Summary Problems 30. Inductance 30.1 - Mutal Inductance 30.2 - Self-Inductance and Inductors 30.3 - Magnetic-Field Energy 30.4 - The R-L Circuit 30.5 - The L-C Circuit 30.6 - The L-R-C Circuit Chapter 30 Summary Problems 31. Alternating Current 31.1 - Phasors and Alternating Currents 31.2 - Resistance and Reactance 31.3 - The L-R-C Series Circuit 31.4 - Power in Alternating-Current Circuits 31.5 - Resonance in Alternating-Current Circuits 31.6 - Transformers Chapter 31 Summary Problems 32. Electromagnetic Waves 32.1 - Maxwell\'s Equations and Electromagnetic Waves 32.2 - Plane Electromagnetic Waves and the Speed of Light 32.3 - Sinusoidal Electromagnetic Waves 32.4 - Energy and Momentum in Electromagnetic Waves 32.5 - Standing Electromagnetic Waves Chapter 32 Summary Problems OPTICS 33. The Nature and Propagation of Light 33.1 - The Nature of Light 33.2 - Reflection and Refraction 33.3 - Total Internal Reflection 33.4 - Dispersion 33.5 - Polarization 33.6 - Scattering of Light 33.7 - Huygen\'s Principle Chapter 33 Summary Problems 34. Geometric Optics 34.1 - Reflection and Refraction at a Plane Surface 34.2 - Reflection at a Spherical Surface 34.3 - Refraction at a Spherical Surface 34.4 - Thin Lenses 34.5 - Cameras 34.6 - The Eye 34.7 - The Magnifier 34.8 - Microscopes and Telescopes Chapter 34 Summary Problems 35. Interference 35.1 - Interference and Coherent Sources 35.2 - Two-Source Interference of Light 35.3 - Intensity in Interference Patterns 35.4 - Interference in Thin Films 35.5 - The Michelson Interferometer Chapter 35 Summary Problems 36. Diffraction 36.1 - Fresnel and Fraunhofer Diffraction 36.2 - Diffraction from a Single Slit 36.3 - Intensity in the Single-Slit Pattern 36.4 - Multiple Slits 36.5 - The Diffraction Grating 36.6 - X-Ray Diffraction 36.7 - Circular Aperatures and Resolving Power 36.8 - Holography Chapter 36 Summary Problems MODERN PHYSICS 37 - Relativity 37.1 - Invariance of Physical Laws 37.2 - Relativity of Simultaneity 37.3 - Relativity of Time Intervals 37.4 - Relativity of Length 37.5 - The Lorentz Transformations 37.6 - The Doppler Effect for Electromagnetic Waves 37.7 - Relativistic Momentum 37.8 - Relativistic Work and Energy 37.9 - Newtonian Mechnaics and Relativity Chapter 37 Summary Problems 38. Photons: Light Behaving as Particles 38.1 - Light Absorbed as Photons: The Photoelectric Effect 38.2 - Light Emitted as Photons: X-Ray Production 38.3 - Light Scattered as Photons: Compton Scattering and Pair Production 38.4 - Wave-Particle Duality, Probability, and Uncertainty Chapter 38 Summary Problems 39. Particles Behaving as Waves 39.1 - Electron Waves 39.2 - The Nuclear Atom and Atomic Spectra 39.3 - Energy Levels and the Bohr Model of the Atom 39.4 - The Laser 39.5 - Continous Spectra 39.6 - The Uncertainty Principle Revisited Chapter 39 Summary Problems 40. Quantum Mechanics I: Wave Functions 40.1 - Wave Functions and the One-Dimensional Schrodinger Equation 40.2 - Particle in a Box 40.3 - Potential Wells 40.4 - Potential Barriers and Tunneling 40.5 - The Harmonic Oscillator 40.6 - Measurement in Quantum Mechanics Chapter 40 Summary Problems 41. Quantum Mechanics II: Atomic Structure 41.1 - The Schrodinger Equation in Three Dimensions 41.2 - Particle in a Three-Dimensional Box 41.3 - The Hydrogen Atom 41.4 - The Zeeman Effect 41.5 - Electron Spin 41.6 - Many-Electron Atoms and the Exclusion Principle 41.7 - X-Ray Spectra 41.8 - Quantum Entanglement Chapter 41 Summary Problems 42. Molecules and Condensed Matter 42.1 - Types of Molecular Bonds 42.2 - Molecular Spectra 42.3 - Structure of Solids 42.4 - Energy Bands 42.5 - Free-Electron Model of Metals 42.6 - Semiconductors 42.7 - Semiconductor Devices 42.8 - Superconductivity Chapter 42 Summary Problems 43. Nuclear Physics 43.1 - Properties of Nuclei 43.2 - Nuclear Binding and Nuclear Structure 43.3 - Nuclear Stability and Radioactivity 43.4 - Activities and Half-Lives 43.5 - Biological Effects of Radiation 43.6 - Nuclear Reactions 43.7 - Nuclear Fission 43.8 - Nuclear Fusion Chapter 43 Summary Problems 44. Particle Physics and Cosmology 44.1 - Fundamental Particles - A History 44.2 - Particle Accererators and Dectors 44.3 - Particles and Interaction 44.4 - Quarks and Gluons 44.5 - The Standard Model and Beyond 44.6 - The Expanding Universe 44.7 - The Beginning of Time Chapter 44 Summary Problems Back Matter Appendix A: International System of Units Appendix B: Useful Mathematical Relations Appendix C: The Greek Alphabet Appendix D: Periodic Table of the Elements Appendix E: Unit Conversion Factors Appendix F: Numerical Constants Answers to Odd-Numbered Problems Credits Index Astronomical Data and Metric Prefixes Fundamental Physics Constants and Other Useful Constants
