MARC details
| 000 -LEADER |
|---|
| fixed length control field |
15773nam a22002777i 4500 |
| 005 - DATE AND TIME OF LATEST TRANSACTION |
|---|
| control field |
20210913100508.0 |
| 008 - FIXED-LENGTH DATA ELEMENTS--GENERAL INFORMATION |
|---|
| fixed length control field |
171114s2017 ii a|||| |||| 00| 0 eng d |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER |
|---|
| International Standard Book Number |
9789386650672 |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER |
|---|
| International Standard Book Number |
9386650673 |
| 040 ## - CATALOGING SOURCE |
|---|
| Original cataloging agency |
fue |
| Description conventions |
rda |
| 082 ## - DEWEY DECIMAL CLASSIFICATION NUMBER |
|---|
| Edition number |
23 |
| Classification number |
530 |
| Item number |
R.S.P |
| 100 1# - MAIN ENTRY--PERSONAL NAME |
|---|
| Personal name |
Raymond A, Serway |
| Relator term |
author. |
| 245 10 - TITLE STATEMENT |
|---|
| Title |
Physics for scientists & engineers, with modern physics / |
| Statement of responsibility, etc |
Serway, Raymond A, Jewett, John W. |
| 250 ## - EDITION STATEMENT |
|---|
| Edition statement |
ninth edition |
| 264 #1 - PUBLICATION, DISTRIBUTION, ETC. (IMPRINT) |
|---|
| Place of publication, distribution, etc |
india : |
| Name of publisher, distributor, etc |
Cengage , |
| Date of publication, distribution, etc |
c 2017 |
| 264 #4 - PUBLICATION, DISTRIBUTION, ETC. (IMPRINT) |
|---|
| Date of publication, distribution, etc |
c 2017 |
| 300 ## - PHYSICAL DESCRIPTION |
|---|
| Extent |
838 pages. : |
| Other physical details |
illustrations. ; |
| Dimensions |
27 cm. |
| 336 ## - CONTENT TYPE |
|---|
| Source |
rdacontent |
| Content type term |
tex |
| 337 ## - MEDIA TYPE |
|---|
| Source |
unmediated |
| Media type term |
rdamedia |
| 338 ## - CARRIER TYPE |
|---|
| Source |
volume |
| Carrier type term |
rdacarrier |
| 505 #0 - FORMATTED CONTENTS NOTE |
|---|
| Formatted contents note |
Machine generated contents note: pt. 1 Mechanics --<br/>1.Physics and Measurement --<br/>1.1.Standards of Length, Mass, and Time --<br/>1.2.Matter and Model Building --<br/>1.3.Dimensional Analysis --<br/>1.4.Conversion of Units --<br/>1.5.Estimates and Order-of-Magnitude Calculations --<br/>1.6.Significant Figures --<br/>2.Motion in One Dimension --<br/>2.1.Position, Velocity, and Speed --<br/>2.2.Instantaneous Velocity and Speed --<br/>2.3.Analysis Model: Particle Under Constant Velocity --<br/>2.4.Acceleration --<br/>2.5.Motion Diagrams --<br/>2.6.Analysis Model: Particle Under Constant Acceleration --<br/>2.7.Freely Falling Objects --<br/>2.8.Kinematic Equations Derived from Calculus --<br/>3.Vectors --<br/>3.1.Coordinate Systems --<br/>3.2.Vector and Scalar Quantities --<br/>3.3.Some Properties of Vectors --<br/>3.4.Components of a Vector and Unit Vectors --<br/>4.Motion in Two Dimensions --<br/>4.1.The Position, Velocity, and Acceleration Vectors --<br/>4.2.Two-Dimensional Motion with Constant Acceleration --<br/>4.3.Projectile Motion --<br/>4.4.Analysis Model: Particle in Uniform Circular Motion --<br/>4.5.Tangential and Radial Acceleration --<br/>4.6.Relative Velocity and Relative Acceleration --<br/>5.The Laws of Motion --<br/>5.1.The Concept of Force --<br/>5.2.Newton's First Law and Inertial Frames --<br/>5.3.Mass --<br/>5.4.Newton's Second Law --<br/>5.5.The Gravitational Force and Weight --<br/>5.6.Newton's Third Law --<br/>5.7.Analysis Models Using Newton's Second Law --<br/>5.8.Forces of Friction --<br/>6.Circular Motion and Other Applications of Newton's Laws --<br/>6.1.Extending the Particle in Uniform Circular Motion Model --<br/>6.2.Nonuniform Circular Motion --<br/>6.3.Motion in Accelerated Frames --<br/>6.4.Motion in the Presence of Resistive Forces --<br/>7.Energy of a System --<br/>7.1.Systems and Environments --<br/>7.2.Work Done by a Constant Force --<br/>7.3.The Scalar Product of Two Vectors --<br/>7.4.Work Done by a Varying Force --<br/>7.5.Kinetic Energy and the Work-Kinetic Energy Theorem --<br/>7.6.Potential Energy of a System --<br/>7.7.Conservative and Nonconservative Forces --<br/>7.8.Relationship Between Conservative Forces and Potential Energy --<br/>7.9.Energy Diagrams and Equilibrium of a System --<br/>8.Conservation of Energy --<br/>8.1.Analysis Model: Nonisolated System (Energy) --<br/>8.2.Analysis Model: Isolated System (Energy) --<br/>8.3.Situations Involving Kinetic Friction --<br/>8.4.Changes in Mechanical Energy for Nonconservative Forces --<br/>8.5.Power --<br/>9.Linear Momentum and Collisions --<br/>9.1.Linear Momentum --<br/>9.2.Analysis Model: Isolated System (Momentum) --<br/>9.3.Analysis Model: Nonisolated System [Momentum] --<br/>9.4.Collisions in One Dimension --<br/>9.5.Collisions in Two Dimensions --<br/>9.6.The Center of Mass --<br/>9.7.Systems of Many Particles --<br/>9.8.Deformable Systems --<br/>9.9.Rocket Propulsion --<br/>10.Rotation of a Rigid Object About a Fixed Axis --<br/>10.1.Angular Position, Velocity, and Acceleration --<br/>10.2.Analysis Model: Rigid Object Under Constant Angular Acceleration --<br/>10.3.Angular and Translations! Quantities --<br/>10.4.Torque --<br/>10.5.Analysis Model: Rigid Object Under a Net Torque --<br/>10.6.Calculation of Moments of Inertia --<br/>10.7.Rotational Kinetic Energy --<br/>10.8.Energy Considerations in Rotational Motion --<br/>10.9.Rolling Motion of a Rigid Object --<br/>11.Angular Momentum --<br/>11.1.The Vector Product and Torque --<br/>11.2.Analysis Model: Nonisolated System (Angular Momentum) --<br/>11.3.Angular Momentum of a Rotating Rigid Object --<br/>11.4.Analysis Model: Isolated System (Angular Momentum) --<br/>11.5.The Motion of Gyroscopes and Tops --<br/>12.Static Equilibrium and Elasticity --<br/>12.1.Analysis Model: Rigid Object in Equilibrium --<br/>12.2.More on the Center of Gravity --<br/>12.3.Examples of Rigid Objects in Static Equilibrium --<br/>12.4.Elastic Properties of Solids --<br/>13.Universal Gravitation --<br/>13.1.Newton's Law of Universal Gravitation --<br/>13.2.Free-Fall Acceleration and the Gravitational Force --<br/>13.3.Analysis Model: Particle in a Field (Gravitational) --<br/>13.4.Kepler's Laws and the Motion of Planets --<br/>13.5.Gravitational Potential Energy --<br/>13.6.Energy Considerations in Planetary and Satellite Motion --<br/>14.Fluid Mechanics --<br/>14.1.Pressure --<br/>14.2.Variation of Pressure with Depth --<br/>14.3.Pressure Measurements --<br/>14.4.Buoyant Forces and Archimedes's Principle --<br/>14.5.Fluid Dynamics --<br/>14.6.Bernoulli's Equation --<br/>14.7.Other Applications of Fluid Dynamics --<br/>pt. 2 Oscillations and Mechanical Waves --<br/>15.Oscillatory Motion --<br/>15.1.Motion of an Object Attached to a Spring --<br/>15.2.Analysis Model: Particle in Simple Harmonic Motion --<br/>15.3.Energy of the Simple Harmonic Oscillator --<br/>15.4.Comparing Simple Harmonic Motion with Uniform Circular Motion --<br/>15.5.The Pendulum --<br/>15.6.Damped Oscillations --<br/>15.7.Forced Oscillations --<br/>16.Wave Motion --<br/>16.1.Propagation of a Disturbance --<br/>16.2.Analysis Model: Traveling Wave --<br/>16.3.The Speed of Waves on Strings --<br/>16.4.Reflection and Transmission --<br/>16.5.Rate of Energy Transfer by Sinusoidal Waves on Strings --<br/>16.6.The Linear Wave Equation --<br/>17.Sound Waves --<br/>17.1.Pressure Variations in Sound Waves --<br/>17.2.Speed of Sound Waves --<br/>17.3.Intensity of Periodic Sound Waves --<br/>17.4.The Doppler Effect --<br/>18.Superposition and Standing Waves --<br/>18.1.Analysis Model: Waves in Interference --<br/>18.2.Standing Waves --<br/>18.3.Analysis Model: Waves Under Boundary Conditions --<br/>18.4.Resonance --<br/>18.5.Standing Waves in Air Columns --<br/>18.6.Standing Waves in Rods and Membranes --<br/>18.7.Beats: Interference in Time --<br/>18.8.Nonsinusoidal Wave Patterns --<br/>pt. 3 Thermodynamics --<br/>19.Temperature --<br/>19.1.Temperature and the Zeroth Law of Thermodynamics --<br/>19.2.Thermometers and the Celsius Temperature Scale --<br/>19.3.The Constant-Volume Gas Thermometer and the Absolute Temperature Scale --<br/>19.4.Thermal Expansion of Solids and Liquids --<br/>19.5.Macroscopic Description of an Ideal Gas --<br/>20.The First Law of Thermodynamics --<br/>20.1.Heat and Internal Energy --<br/>20.2.Specific Heat and Calorimetry --<br/>20.3.Latent Heat --<br/>20.4.Work and Heat in Thermodynamic Processes --<br/>20.5.The First Law of Thermodynamics --<br/>20.6.Some Applications of the First Law of Thermodynamics --<br/>20.7.Energy Transfer Mechanisms in Thermal Processes --<br/>21.The Kinetic Theory of Gases --<br/>21.1.Molecular Mode! of an Ideal Gas --<br/>21.2.Molar Specific Heat of an Ideal Gas --<br/>21.3.The Equipartition of Energy --<br/>21.4.Adiabatic Processes for an Ideal Gas --<br/>21.5.Distribution of Molecular Speeds --<br/>22.Heat Engines, Entropy, and the Second Law of Thermodynamics --<br/>22.1.Heat Engines and the Second Law of Thermodynamics --<br/>22.2.Heat Pumps and Refrigerators --<br/>22.3.Reversible and Irreversible Processes --<br/>22.4.The Carnot Engine --<br/>22.5.Gasoline and Diesel Engines --<br/>22.6.Entropy --<br/>22.7.Changes in Entropy for Thermodynamic Systems --<br/>22.8.Entropy and the Second Law --<br/>pt. 4 Electricity and Magnetism --<br/>23.Electric Fields --<br/>23.1.Properties of Electric Charges --<br/>23.2.Charging Objects by Induction --<br/>23.3.Coulomb's Law --<br/>23.4.Analysis Model: Particle in a Field [Electric] --<br/>23.5.Electric Field of a Continuous Charge Distribution --<br/>23.6.Electric Field Lines --<br/>23.7.Motion of a Charged Particle in a Uniform Electric Field --<br/>24.Gauss's Law --<br/>24.1.Electric Flux --<br/>24.2.Gauss's Law --<br/>24.3.Application of Gauss's Law to Various Charge Distributions --<br/>24.4.Conductors in Electrostatic Equilibrium --<br/>25.Electric Potential --<br/>25.1.Electric Potential and Potential Difference --<br/>25.2.Potential Difference in a Uniform Electric Field --<br/>25.3.Electric Potential and Potential Energy Due to Point Charges --<br/>25.4.Obtaining the Value of the Electric Field from the Electric Potential --<br/>25.5.Electric Potential Due to Continuous Charge Distributions --<br/>25.6.Electric Potential Due to a Charged Conductor --<br/>25.7.The Millikan Oil-Drop Experiment --<br/>25.8.Applications of Electrostatics --<br/>26.Capacitance and Dielectrics --<br/>26.1.Definition of Capacitance --<br/>26.2.Calculating Capacitance --<br/>26.3.Combinations of Capacitors --<br/>26.4.Energy Stored in a Charged Capacitor --<br/>26.5.Capacitors with Dielectrics --<br/>26.6.Electric Dipole in an Electric Field --<br/>26.7.An Atomic Description of Dielectrics --<br/>27.Current and Resistance --<br/>27.1.Electric Current --<br/>27.2.Resistance --<br/>27.3.A Model for Electrical Conduction --<br/>27.4.Resistance and Temperature --<br/>27.5.Superconductors --<br/>27.6.Electrical Power --<br/>28.Direct-Current Circuits --<br/>28.1.Electromotive Force --<br/>28.2.Resistors in Series and Parallel --<br/>28.3.Kirchhoff's Rules --<br/>28.4.RC Circuits --<br/>28.5.Household Wiring and Electrical Safety --<br/>29.Magnetic Fields --<br/>29.1.Analysis Model: Particle in a Field [Magnetic] --<br/>29.2.Motion of a Charged Particle in a Uniform Magnetic Field --<br/>29.3.Applications Involving Charged Particles Moving in a Magnetic Field --<br/>29.4.Magnetic Force Acting on a Current-Carrying Conductor --<br/>29.5.Torque on a Current Loop in a Uniform Magnetic Field --<br/>29.6.The Hall Effect --<br/>30.Sources of the Magnetic Field --<br/>30.1.The Biot-Savart Lam --<br/>30.2.The Magnetic Force Between Two Parallel Conductors --<br/>30.3.Ampere's Law --<br/>30.4.The Magnetic Field of a Solenoid --<br/>30.5.Gauss's Law in Magnetism --<br/>30.6.Magnetism in Matter --<br/>31.Faraday's Law --<br/>31.1.Faraday's Law of Induction --<br/>35.2.Motional emf --<br/>31.3.Lenz's Law --<br/>31.4.Induced emf and Electric Fields --<br/>31.5.Generators and Motors --<br/>31.6.Eddy Currents --<br/>32.Inductance --<br/>32.1.Self-Induction and Inductance --<br/>32.2.Fit Circuits --<br/>32.3.Energy in a Magnetic Field --<br/>32.4.Mutual Inductance --<br/>33.5.Oscillations in an LC Circuit --<br/>32.6.The RC Circuit --<br/>33.Alternating-Current Circuits --<br/>33.1.AC Sources --<br/>33.2.Resistors in an AC Circuit --<br/>33.3.Inductors in an AC Circuit --<br/>33.4.Capacitors in an AC Circuit --<br/>33.5.The RLC Series Circuit --<br/>33.6.Power in an AC Circuit --<br/>33.7.Resonance in a Series RLC Circuit --<br/>33.8.The Transformer and Power Transmission --<br/>33.9.Rectifiers and Filters --<br/>34.Electromagnetic Waves --<br/>34.1.Displacement Current and the General Form of Ampere's Law --<br/>34.2.Maxwell's Equations and Hertz's Discoveries --<br/>34.3.Plane Electromagnetic Waves --<br/>34.4.Energy Carried by Electromagnetic Waves --<br/>34.5.Momentum and Radiation Pressure --<br/>Note continued: 34.6.Production of Electromagnetic Waves by an Antenna --<br/>34.7.The Spectrum of Electromagnetic Waves --<br/>pt. 5 Light and Optics --<br/>35.The Nature of Light and the Principles of Ray Optics --<br/>35.1.The Nature of Light --<br/>35.2.Measurements of the Speed of Light --<br/>35.3.The Ray Approximation in Ray Optics --<br/>35.4.Analysis Model: Wave Under Reflection --<br/>35.5.Analysis Model: Wave Under Refraction --<br/>35.6.Huygens's Principle --<br/>35.7.Dispersion --<br/>35.8.Total Internal Reflection --<br/>36.Image Formation --<br/>36.1.Images Formed by Flat Mirrors --<br/>36.2.Images Formed by Spherical Mirrors --<br/>36.3.Images Formed by Refraction --<br/>36.4.Images Formed by Thin Lenses --<br/>36.5.Lens Aberrations --<br/>36.6.The Camera --<br/>36.7.The Eye --<br/>36.8.The Simple Magnifier --<br/>36.9.The Compound Microscope --<br/>36.10.The Telescope --<br/>37.Wave Optics --<br/>37.1.Young's Double-Slit Experiment --<br/>37.2.Analysis Model: Waves in Interference --<br/>37.3.Intensity Distribution of the Double-Slit Interference Pattern --<br/>37.4.Change of Phase Due to Reflection --<br/>37.5.Interference in Thin Films --<br/>37.6.The Michelson Interferometer --<br/>38.Diffraction Patterns and Polarization --<br/>38.1.Introduction to Diffraction Patterns --<br/>38.2.Diffraction Patterns from Narrow Slits --<br/>38.3.Resolution of Single-Slit and Circular Apertures --<br/>38.4.The Diffraction Grating --<br/>38.5.Diffraction of X-Rays by Crystals --<br/>38.6.Polarization of Light Waves --<br/>pt. 6 Modern Physics --<br/>39.Relativity --<br/>39.1.The Principle of Galilean Relativity --<br/>39.2.The Michelson-Morley Experiment --<br/>39.3.Einstein's Principle of Relativity --<br/>39.4.Consequences of the Special Theory of Relativity --<br/>39.5.The Lorentz Transformation Equations --<br/>39.6.The Lorentz Velocity Transformation Equations --<br/>39.7.Relativistic Linear Momentum --<br/>39.8.Relativistic Energy --<br/>39.9.The General Theory of Relativity --<br/>40.Introduction to Quantum Physics --<br/>40.1.Blackbody Radiation and Planck's Hypothesis --<br/>40.2.The Photoelectric Effect --<br/>40.3.The Compton Effect --<br/>40.4.The Nature of Electromagnetic Waves --<br/>40.5.The Wave Properties of Particles --<br/>40.6.A New Model: The Quantum Particle --<br/>40.7.The Double-Slit Experiment Revisited --<br/>40.8.The Uncertainty Principle --<br/>41.Quantum Mechanics --<br/>41.1.The Wave Function --<br/>41.2.Analysis Model: Quantum Particle Under Boundary Conditions --<br/>41.3.The Schrodinger Equation --<br/>41.4.A Particle in a Well of Finite Height --<br/>41.5.Tunneling Through a Potential Energy Barrier --<br/>41.6.Applications of Tunneling --<br/>41.7.The Simple Harmonic Oscillator --<br/>42.Atomic Physics --<br/>42.1.Atomic Spectra of Gases --<br/>42.2.Early Models of the Atom --<br/>42.3.Bohr's Model of the Hydrogen Atom --<br/>42.4.The Quantum Model of the Hydrogen Atom --<br/>42.5.The Wave Functions for Hydrogen --<br/>42.6.Physical Interpretation of the Quantum Numbers --<br/>42.7.The Exclusion Principle and the Periodic Table --<br/>42.8.More on Atomic Spectra: Visible and X-Ray --<br/>42.9.Spontaneous and Stimulated Transitions --<br/>42.10.Lasers --<br/>43.Molecules and Solids --<br/>43.1.Molecular Bonds --<br/>43.2.Energy States and Spectra of Molecules --<br/>43.3.Bonding in Solids --<br/>43.4.Free-Electron Theory of Metals --<br/>43.5.Band Theory of Solids --<br/>43.6.Electrical Conduction in Metals, Insulators, and Semiconductors --<br/>43.7.Semiconductor Devices --<br/>43.8.Superconductivity --<br/>44.Nuclear Structure --<br/>44.1.Some Properties of Nuclei --<br/>44.2.Nuclear Binding Energy --<br/>44.3.Nuclear Models --<br/>44.4.Radioactivity --<br/>44.5.The Decay Processes --<br/>44.6.Natural Radioactivity --<br/>44.7.Nuclear Reactions --<br/>44.8.Nuclear Magnetic Resonance and Magnetic Resonance Imaging --<br/>45.Applications of Nuclear Physics --<br/>45.1.Interactions Involving Neutrons --<br/>45.2.Nuclear Fission --<br/>45.3.Nuclear Reactors --<br/>45.4.Nuclear Fusion --<br/>45.5.Radiation Damage --<br/>45.6.Uses of Radiation --<br/>46.Particle Physics and Cosmology --<br/>46.1.The Fundamental Forces in Nature --<br/>46.2.Positrons and Other Antiparticles --<br/>46.3.Mesons and the Beginning of Particle Physics --<br/>46.4.Classification of Particles --<br/>46.5.Conservation Laws --<br/>46.6.Strange Particles and Strangeness --<br/>46.7.Finding Patterns in the Particles --<br/>46.8.Quarks --<br/>46.9.Multicolored Quarks --<br/>46.10.The Standard Model --<br/>46.11.The Cosmic Connection --<br/>46.12.Problems and Perspectives --<br/>Appendices --<br/>A.Tables --<br/>A.1.Conversion Factors --<br/>A.2.Symbols, Dimensions, and Units of Physical Quantities --<br/>B.Mathematics Review --<br/>B.1.Scientific Notation --<br/>B.2.Algebra --<br/>B.3.Geometry --<br/>B.4.Trigonometry --<br/>B.5.Series Expansions --<br/>B.6.Differential Calculus --<br/>B.7.Integral Calculus --<br/>B.8.Propagation of Uncertainty --<br/>C.Periodic Table of the Elements --<br/>D.SI Units --<br/>D.1.SI Units --<br/>D.2.Some Derived SI Units. |
| 650 0# - SUBJECT ADDED ENTRY--TOPICAL TERM |
|---|
| Topical term or geographic name as entry element |
Physics |
| 650 0# - SUBJECT ADDED ENTRY--TOPICAL TERM |
|---|
| Topical term or geographic name as entry element |
Physics--Study and teaching (Higher) |
| 942 ## - ADDED ENTRY ELEMENTS (KOHA) |
|---|
| Source of classification or shelving scheme |
Dewey Decimal Classification |
| Koha item type |
Books |