did-you-know? rent-now

Amazon no longer offers textbook rentals. We do!

did-you-know? rent-now

Amazon no longer offers textbook rentals. We do!

We're the #1 textbook rental company. Let us show you why.

9780071448147

Schaum's Outline of College Physics, 10th edition

by
  • ISBN13:

    9780071448147

  • ISBN10:

    0071448144

  • Edition: 10th
  • Format: Paperback
  • Copyright: 2005-11-15
  • Publisher: McGraw-Hill
  • View Upgraded Edition

Note: Supplemental materials are not guaranteed with Rental or Used book purchases.

Purchase Benefits

  • Free Shipping Icon Free Shipping On Orders Over $35!
    Your order must be $35 or more to qualify for free economy shipping. Bulk sales, PO's, Marketplace items, eBooks and apparel do not qualify for this offer.
  • eCampus.com Logo Get Rewarded for Ordering Your Textbooks! Enroll Now
  • Write a Review Icon Write a Review
List Price: $18.95 Save up to $4.74
  • Buy Used
    $14.21
    Add to Cart

    USUALLY SHIPS IN 2-4 BUSINESS DAYS

Supplemental Materials

What is included with this book?

Summary

Confusing Textbooks? Missed Lectures? Tough Test Questions? ..Fortunately for you, there's Schaum's Outlines. More than 40 million students have trusted Schaum's to help them succeed in the classroom and on exams. Schaum's is the key to faster learning and higher grades in every subject. Each Outline presents all the essential course information in an easy-to-follow, topic-by-topic format. You also get hundreds of examples, solved problems, and practice exercises to test your skills. ..This Schaum's Outline gives you:. . Practice problems with full explanations that reinforce knowledge . Coverage of the most up-to-date developments in your course field . In-depth review of practices and applications ..Fully compatible with your classroom text, Schaum's highlights all the important facts you need to know. Use Schaum's to shorten your study time-and get your best test scores!..Schaum's Outlines-Problem Solved..

Author Biography

Frederick J. Bueche, Ph.D., is a distinguished professor at-large at the University of Dayton.

Eugene Hecht, Ph.D., was professor of physics at Adelphi University.

Table of Contents

Speed, Displacement, and Velocity: An Introduction to Vectors
1(14)
Scalar quantity
Distance
Average speed
Instantaneous speed
Vector quantity
Displacement
Velocity
Instantaneous velocity
The addition of vectors
The tip-to-tail (or polygon) method
Parallelogram method
Subtraction of vectors
Trigonometric functions
Component of a vector
Component method for adding vectors
Unit vectors
Uniformly Accelerated Motion
15(13)
Acceleration
Uniformly accelerated motion along a straight line
Direction is important
Graphical interpretations
Acceleration due to gravity
Velocity components
Projectile problems
Newton's Laws
28(24)
Mass
Standard kilogram
Force
Net external force
The newton
Newton's First Law
Newton's Second Law
Newton's Third Law
Law of universal gravitation
Weight
Relation between mass and weight
Tensile force
Friction force
Normal force
Coefficient of kinetic friction
Coefficient of static friction
Dimensional analysis
Mathematical operations with units
Equilibrium Under the Action of Concurrent Forces
52(10)
Concurrent forces
An object is in equilibrium
First condition for equilibrium
Problem solution method (concurrent forces)
Weight of an object
Tensile force
Friction force
Normal force
Pulleys
Equilibrium of a Rigid Body Under Coplanar Forces
62(13)
Torque
Two conditions for equilibrium
Center of gravity
Position of the axis is arbitrary
Work, Energy, and Power
75(11)
Work
Unit of work
Energy
Kinetic energy
Gravitational potential energy
Work-energy theorem
Conservation of energy
Power
Kilowatt-hour
Simple Machines
86(7)
A machine
Principle of work
Mechanical advantage
Efficiency
Impulse and Momentum
93(13)
Linear momentum
Impulse
Impulse causes change in momentum
Conservation of linear momentum
Collisions and explosions
Perfectly elastic collision
Coefficient of restitution
Center of mass
Angular Motion in a Plane
106(12)
Angular displacement
Angular speed
Angular acceleration
Equations for uniformly accelerated angular motion
Relations between angular and tangential quantities
Centripetal acceleration
Centripetal force
Rigid-Body Rotation
118(15)
Torque
Moment of inertia
Torque and angular acceleration
Kinetic energy of rotation
Combined rotation and translation
Work
Power
Angular momentum
Angular impulse
Parallel-axis theorem
Analogous linear and angular quantities
Simple Harmonic Motion and Springs
133(12)
Period
Frequency
Graph of a vibratory motion
Displacement
Restoring force
Hookean system
Simple harmonic motion
Elastic potential energy
Energy interchange
Speed in SHM
Acceleration in SHM
Reference circle
Period in SHM
Acceleration in terms of T
Simple pendulum
SHM
Density; Elasticity
145(8)
Mass density
Specific gravity
Elasticity
Stress
Strain
Elastic limit
Young's modulus
Bulk modulus
Shear modulus
Fluids at Rest
153(11)
Average pressure
Standard atmospheric pressure
Hydrostatic pressure
Pascal's principle
Archimedes' principle
Fluids in Motion
164(9)
Fluid flow or discharge
Equation of continuity
Shear rate
Viscosity
Poiseuille's Law
Work done by a piston
Work done by a pressure
Bernoulli's equation
Torricelli's theorem
Reynolds number
Thermal Expansion
173(5)
Temperature
Linear expansion of solids
Area expansion
Volume expansion
Ideal Gases
178(8)
Ideal (or perfect) gas
One mole of a substance
Ideal Gas Law
Special cases
Absolute zero
Standard conditions or standard temperature and pressure (S.T.P.)
Dalton's Law of partial pressures
Gas-law problems
Kinetic Theory
186(6)
Kinetic theory
Avogadro's number
Mass of a molecule
Average translational kinetic energy
Root mean square speed
Absolute temperature
Pressure
Mean free path
Heat Quantities
192(8)
Thermal energy
Heat
Specific heat
Heat gained (or lost)
Heat of fusion
Heat of vaporization
Heat of sublimation
Calorimetry problems
Absolute humidity
Relative humidity
Dew point
Transfer of Thermal Energy
200(5)
Energy can be transferred
Conduction
Thermal resistance
Convection
Radiation
First Law of Thermodynamics
205(12)
Heat
Internal energy
Work done by a system
First Law of Thermodynamics
Isobaric process
Isovolumic process
Isothermal process
Adiabatic process
Specific heats of gases
Specific heat ratio
Work is related to area
Efficiency of a heat engine
Entropy and the Second Law
217(4)
Second Law of Thermodynamics
Entropy
Entropy is a measure of disorder
Most probable state
Wave Motion
221(10)
Propagating wave
Wave terminology
In-phase vibrations
Speed of a transverse wave
Standing waves
Conditions for resonance
Longitudinal (compressional) waves
Sound
231(10)
Sound waves
Equations for sound speed
Speed of sound in air
Intensity
Loudness
Intensity (or sound) level
Beats
Doppler effect
Interference effects
Coulomb's Law and Electric Fields
241(11)
Coulomb's Law
Charge quantized
Conservation of charge
Test-charge concept
Electric field
Strength of the electric field
Electric field due to a point charge
Superposition principle
Electric Potential; Capacitance
252(13)
Potential difference
Absolute potential
Electrical potential energy
V related to E
Electron volt energy unit
Capacitor
Parallel-plate capacitor
Capacitors in parallel and series
Energy stored in a capacitor
Current, Resistance, and Ohm's Law
265(9)
Current
Battery
Resistance
Ohm's Law
Measurement of resistance by ammeter and voltmeter
Terminal potential difference
Resistivity
Resistance varies with temperature
Potential changes
Electrical Power
274(5)
Electrical work
Electrical power
Power loss in a resistor
Thermal energy generated in a resistor
Convenient conversions
Equivalent Resistance; Simple Circuits
279(13)
Resistors in series
Resistors in parallel
Kirchhoff's Laws
292(6)
Kirchhoff's node (or junction) rule
Kirchhoff's loop (or circuit) rule
Set of equations obtained
Forces in Magnetic Fields
298(10)
Magnetic field
Magnetic field lines
Magnet
Magnetic poles
Charge moving through a magnetic field
Direction of the force
Magnitude of the force
Magnetic field at a point
Force on a current in a magnetic field
Torque on a flat coil
Sources of Magnetic Fields
308(6)
Magnetic fields are produced
Direction of the magnetic field
Ferromagnetic materials
Magnetic moment
Magnetic field of a current element
Induced EMF; Magnetic Flux
314(10)
Magnetic effects of matter
Magnetic field lines
Magnetic flux
Induced emf
Faraday's Law for induced emf
Lenz's Law
Motional emf
Electric Generators and Motors
324(7)
Electric generators
Electric motors
Inductance; R-C and R-L Time Constants
331(8)
Self-inductance
Mutual inductance
Energy stored in an inductor
R-C time constant
R-L time constant
Exponential functions
Alternating Current
339(9)
Emf generated by a rotating coil
Meters
Thermal energy generated or power lost
Forms of Ohm's Law
Phase
Impedance
Phasors
Resonance
Power loss
Transformer
Reflection of Light
348(9)
Nature of light
Law of reflection
Plane mirrors
Spherical mirrors
Ray tracing
Mirror equation
Size of the image
Refraction of Light
357(7)
Speed of light
Index of refraction
Refraction
Snell's Law
Critical angle for total internal reflection
Prism
Thin Lenses
364(8)
Type of lenses
Ray tracing
Object and image relation
Lensmaker's equation
Lens power
Lenses in contact
Optical Instruments
372(9)
Combination of thin lenses
The eye
Angular magnification
Magnifying glass
Microscope
Telescope
Interference and Diffraction of Light
381(9)
Propagating wave
Coherent waves
Relative phase
Interference effects
Diffraction
Single-slit Fraunhofer diffraction
Limit of resolution
Diffraction grating equation
Diffraction of X-rays
Optical path length
Relativity
390(8)
Reference frame
Special theory of relativity
Relativistic linear momentum
Limiting speed
Relativistic energy
Time dilation
Simultaneity
Length contraction
Velocity addition formula
Quantum Physics and Wave Mechanics
398(8)
Quanta of radiation
Photoelectric effect
Momentum of a photon
Compton effect
De Broglie wavelength
Resonance of de Broglie waves
Quantized energies
The Hydrogen Atom
406(5)
Hydrogen atom
Electron orbits
Energy-level diagrams
Emission of light
Spectral lines
Origin of spectral series
Absorption of light
Multielectron Atoms
411(3)
Neutral atom
Quantum numbers
Pauli exclusion principle
Nuclei and Radioactivity
414(10)
Nucleus
Nuclear charge and atomic number
Atomic mass unit
Mass number
Isotopes
Binding energies
Radioactivity
Nuclear equations
Applied Nuclear Physics
424(8)
Nuclear binding energies
Fission reaction
Fusion reaction
Radiation dose
Radiation damage potential
Effective radiation dose
High-energy accelerators
Momentum of a particle
Appendix A Significant Figures 432(2)
Appendix B Trigonometry Needed for College Physics 434(3)
Appendix C Exponents 437(2)
Appendix D Logarithms 439(3)
Appendix E Prefixes for Multiples of SI Units; The Greek Alphabet 442(1)
Appendix F Factors for Conversions to SI Units 443(1)
Appendix G Physical Constants 444(1)
Appendix H Table of the Elements 445(2)
Index 447

Supplemental Materials

What is included with this book?

The New copy of this book will include any supplemental materials advertised. Please check the title of the book to determine if it should include any access cards, study guides, lab manuals, CDs, etc.

The Used, Rental and eBook copies of this book are not guaranteed to include any supplemental materials. Typically, only the book itself is included. This is true even if the title states it includes any access cards, study guides, lab manuals, CDs, etc.

Rewards Program