Bauer & Westfall’s University Physics with Modern Physics,second edition, teaches students the fundamentals of physics through interesting, timely examples, a logical and consistent approach to problem solving, and an outstanding suite of online tools and exercises. Bauer & Westfall, University Physics with Modern Physics, second edition, weaves exciting, contemporary physics throughout the text with coverage of the most recent research by the authors and others in areas such as energy, medicine, and the environment. These contemporary topics are explained in a way that your students will find real, interesting, and motivating. Bauer & Westfall’s University Physics with Modern Physics, second edition, includes the power of McGraw-Hill’s LearnSmart–a proven adaptive learning program that helps students learn faster, study more efficiently, and retain more knowledge for greater success. LearnSmart is included in ConnectPlus which features more than 2,500 automatically-graded exercises delivered in an easy-to-use, accurate, and reliable system. Bauer & Westfall’s University Physics with Modern Physics is designed for the calculus-based introductory physics course and is well suited for students in Physics, Engineering, and the Life and Physical Sciences. The text acknowledges the latest advances in physics education with a traditional table of contents.

Table of Contents

Part 5: Electricity

Chapter

21, Electrostatics

21.1, Electromagnetism

21.2, Electric Charge

21.3, Insulators, Conductors, Semiconductors, and Superconductors

21.4, Electrostatic Charging

21.5, Electrostatic Force – Coulomb’s Law

21.6, Coulomb’s Law and Newton’s Law of Gravitation

Chapter 22, Electric Fields and Gauss’s Law

22.1, Definition of an Electric Field

22.2, Field Lines

22.3, Electric Field due to Point Charges

22.4, Electric Field due to a Dipole

22.5, General Charge Distributions

22.6, Force due to an Electric Field

22.7, Electric Flux

22.8, Gauss’s Law

22.9, Special Symmetries

Chapter 23, Electric Potential

23.1, Electric Potential Energy

23.2, Definition of Electric Potential

23.3, Equipotential Surfaces and Lines

23.4, Electric Potential of Various Charge Distributions

23.5, Finding the Electric Field from the Electric Potential

23.6, Electric Potential Energy of a System of Point Charges

Chapter 24, Capacitors

24.1, Capacitance

24.2, Circuits

24.3, Parallel Plate Capacitor and Other Types of Capacitors

24.4, Capacitors in Circuits

24.5, Energy Stored in Capacitors

24.6, Capacitors with Dielectrics

24.7, Microscopic Perspective on Dielectrics

Chapter 25, Current and Resistance

25.1, Electric Current

25.2, Current Density

25.3, Resistivity and Resistance

25.4, Electromotive Force and Ohm’s Law

25.5, Resistors in Series

25.6, Resistors in Parallel

25.7, Energy and Power in Electric Circuits

25.8, Diodes: One-Way Streets in Circuits

Chapter 26, Direct Current Circuits

26.1, Kirchoff’s Rules

26.2, Single-Loop Circuits

26.3, Multiloop Circuits

26.4, Ammeters and Voltmeters

26.5, RC Circuits

Part 6: Magnetism

Chapter 27, Magnetism

27.1, Permanent Magnets

27.2, Magnetic Force

27.3, Motion of Char

Chapter 28, Magnetic Fields of Moving Charges

28.1, Biot-Savart Law

28.2, magnetic Fields due to Current Distributions

28.3, Ampere’s Law

28.4, Magnetic Fields of Solenoids and Toroids

28.5, Atoms as Magnets

28.6, Magnetic Properties of matter

28.7, Magnetism and Superconductivity

Chapter 29, Electromagnetic Induction

29.1, Faraday’s Experiments

29.2, Faraday’s Law of induction

29.3, Lenz’s Law

29.4, Generators and Motors

29.5, Induced Electric Field

29.6, Inductance of a Solenoid

29.7, Self-Induction and Mutual Induction

29.8, RL Circuits

29.9, Energy and Energy Density of a Magnetic Field

29.10, Applications of Information Technology

Chapter 30, Alternating Current Circuits

30.1, LC Circuits

30.2, Analysis of LC Oscillations

30.3, Damped Oscillations in an RLC Circuit

30.4, Driven AC Circuits

30.5, Series RLC Circuits

30.6, Energy and Power in AC Circuits

30.7, Transformers

30.8, Rectifiers

Chapter 31, Electromagnetic Waves

31.1, Maxwell’s Law of Induction for Induced Magnetic Fields

31.2, Wave Solutions to Maxwell’s Equations

31.3, The Electromagnetic Spectrum

31.4, Poynting Vector and Energy Transport

31.5, Radiation Pressure

31.6, Polarization

31.7, Derivation of the Wave Equation

Part7: Optics

Chapter 32, Geometric Optics

32.1, Light Rays and Shadows

32.2, Reflection and Plane Mirrors

32.3, Curved Mirrors

32.4, Refraction and Snell’s Law

Chapter 33, Lenses and Optical Instruments

33.1, Lenses

33.2, Magnifier

33.3, Systems of Two or More Optical Elements

33.4, Human Eye

33.5, Camera

33.6, Microscope

33.7, Telescope

33.8, Laser Tweezers

Chapter 34, Wave Optics34.1, Light Waves34.2, Interference34.3, Diffraction34.4, Gratings

Part 8: Relativity

Chapter 35, Relativity

35.1, Space, Time, and the Speed of Light

35.2, Time Dilation and Length Contraction

35.3, Lorentz Transformation

35.4, Relativistic Momentum and Energy

35.5, General Relativity

35.6, Relativity in our Daily Lives: GPS

Chapter 36, Quantum Physics

36.1, The Nature of Matter, Space, and Time

36.2, Blackbody Radiation

36.3, Photoelectric Effect

36.4, Compton Scattering

36.5, Matter Waves

36.6, Uncertainty Relation

36.7, Spin

36.8, Spin and Statistics

Chapter 37, Quantum Mechanics

37.1, Wave Function

37.2, Time-Independent Schroedinger Equation

37.3, Infinite Potential Well

37.4, Finite Potential Wells

37.5, Harmonic Oscillator

37.6, Wave Functions and Measurements

37.7, Correspondence Principle

37.8, Time-Dependent Schroedinger Equation

37.9, Many-

Particle Wave Function

37.10, Antimatter

Chapter 38, Atomic Physics

38.1, Spectral Lines

38.2, Bohr’s Model of the Atom

38.3, Hydrogen Electron Wave Function

38.4, Other Atoms

38.5, Lasers

Chapter 39, Elementary

Particle Physics

39.1, Reductionism

39.2, Probing Substructure

39.3, Elementary

Particles

39.4, Extensions of the Standard Model

39.5, Composite

Particles

39.6, Big Bang Cosmology

Chapter 40, Nuclear Physics

40.1, Nuclear Properties

40.2, Nuclear Decay

40.3, Nuclear Models

40.4, Nuclear Energy: Fission and Fusion

40.5, Nuclear Astrophysics

40.6, Nuclear Medicine

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