Physics for Scientists and Engineers: Regular Version, Ch. 1-35 and 39Macmillan, 13 ott 1999 - 1283 pagine For nearly 25 years, Tipler’s standard-setting textbook has been a favorite for the calculus-based introductory physics course. With this edition, the book makes a dramatic re-emergence, adding innovative pedagogy that eases the learning process without compromising the integrity of Tipler’s presentation of the science. For instructor and student convenience, the Fourth Edition of Physics for Scientists and Engineers is available as three paperback volumes… Vol. 1: Mechanics, Oscillations and Waves, Thermodynamics, 768 pages, 1-57259-491-8 Vol. 2: Electricity and Magnetism, 544 pages, 1-57259-492-6 Vol. 3: Modern Physics: Quantum Mechanics, Relativity, and The Structure of Matter, 304 pages, 1-57259-490-X …or in two hardcover versions: Regular Version (Chaps. 1-35 and 39): 0-7167-3821-X Extended Version (Chaps. 1-41): 0-7167-3822-8 To order the volume or version you need, use the links above to go to each volume or version's specific page. Download errata for this book: This errata is for the first printing of Tipler's PSE, 4/e. The errors have been corrected in subsequent printings of the book, but we continue to make this errata available for those students and teachers still using old copies from the first printing. Download as a Microsoft Word document or as a pdf file. |
Dall'interno del libro
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Pagina vii
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Pagina 7
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Pagina 8
... Static Equilibrium and Elasticity 351 13 Fluids 374 PART oscillations and waves Chapter 14 Oscillations 403 15 Wave Motion 442 16 Superposition and Standing Waves 480 17 Wave - Particle Duality and Quantum Physics 509 PART ...
... Static Equilibrium and Elasticity 351 13 Fluids 374 PART oscillations and waves Chapter 14 Oscillations 403 15 Wave Motion 442 16 Superposition and Standing Waves 480 17 Wave - Particle Duality and Quantum Physics 509 PART ...
Pagina xxii
... Static Friction 114 7-4 The Conservation of Energy 185 The Work - Energy Theorem 186 Problems Involving Kinetic Friction 188 Systems With Chemical Energy 193 Exploring ... Transducers 195 Mass and Energy 196 Nuclear Energy 197 Newtonian ...
... Static Friction 114 7-4 The Conservation of Energy 185 The Work - Energy Theorem 186 Problems Involving Kinetic Friction 188 Systems With Chemical Energy 193 Exploring ... Transducers 195 Mass and Energy 196 Nuclear Energy 197 Newtonian ...
Pagina xxiii
... Static Equilibrium 353 12-4 Couples 356 12-5 Static Equilibrium in an Accelerated Frame 357 12-6 Stability of Rotational Equilibrium 358 12-7 Indeterminate Problems 359 12-8 Stress and Strain 360 Summary 362 Problem - Solving Guide 363 ...
... Static Equilibrium 353 12-4 Couples 356 12-5 Static Equilibrium in an Accelerated Frame 357 12-6 Stability of Rotational Equilibrium 358 12-7 Indeterminate Problems 359 12-8 Stress and Strain 360 Summary 362 Problem - Solving Guide 363 ...
Sommario
mechanics | 2 |
Motion in One Dimension | 19 |
Electrostatic Energy and Capacitance Heat Capacity due to Electrons in a Metal | 25 |
Motion in Two and Three Dimensions | 54 |
Newtons Laws | 83 |
contents in brief 4 Newtons Laws 83 5 Applications of Newtons Laws | 114 |
Conservation of Momentum | 212 |
Work and Energy 148 | 218 |
electricity and magnetism | 656 |
The Electric Field | 657 |
The Electric Field | 688 |
Electric Potential | 720 |
DirectCurrent Circuits | 786 |
The Microscopic Theory | 829 |
Capacitors The Scattering of Electron Waves | 840 |
The BiotSavart Law | 885 |
Rotation | 257 |
Fluids 374 | 286 |
Paul A Tipler 10 Conservation of Angular Momentum | 295 |
Gravity | 321 |
Mass | 329 |
Oscillations | 403 |
Wave Motion | 442 |
Superposition and Standing Waves | 480 |
WaveParticle Duality and Quantum | 509 |
Temperature and the Kinetic Theory of Gases | 541 |
Heat and the First Law | 566 |
197 | 584 |
The Second Law of Thermodynamics | 600 |
Thermal Properties and Processes | 633 |
The Microscopic Theory of Electrical Definition of the Ampere | 892 |
The Pauli Exclusion Principle Conservation of Momentum | 902 |
Electromagnetic Waves | 999 |
Magnetic Induction 324 The Wave Equation for Electromagnetic Waves | 1011 |
AlternatingCurrent Circuits Absorption Scattering | 1029 |
The Telescope | 1096 |
ProblemSolving Guide 1276 Problems 1277 | 1102 |
Interference and Diffraction Appendix A SI Units and Conversion | 1112 |
A SI Units and Conversion Factors AP1 | 1 |
Illustration Credits IC1 | 1 |
1-1 | |
1-11 | |
Parole e frasi comuni
acceleration Ampère's law amplitude angle angular momentum atom axis ball battery block Calculate capacitance capacitor center of mass charge density charge Q collision conductor constant cylinder dielectric dipole direction disk displacement distance earth elastic collision electric field electron equal Equation equilibrium equipartition theorem Example field lines Find force acting force exerted frequency friction function Gauss's law given gravity harmonic heat horizontal initial kinetic energy km/h length loop m/s² m₁ magnetic field magnetic moment magnitude maximum mechanical energy molecules moment of inertia motion moving Newton's object oscillator particle Picture the Problem plane plates point charge positive potential difference potential energy pressure proton radius resistance resistor result rotation second law shown in Figure shows simple harmonic motion speed sphere spherical string surface t₁ temperature thermal tion torque V₁ vector volume wave wavelength weight wire zero