Solution Manual for Modern Physics, 2/E 2nd Edition Randy Harris

This is completed downloadable of Solution Manual for Modern Physics, 2/E 2nd Edition Randy Harris

Product Details:

• ISBN-10 ‏ : ‎ 0805303081
• ISBN-13 ‏ : ‎ 978-0805303087
• Author: Randy Harris

Modern Physics, Second Edition provides a clear, precise, and contemporary introduction to the theory, experiment, and applications of modern physics. Ideal for both physics majors and engineers, this eagerly awaited second edition puts the modern back into modern physics courses. Pedagogical features throughout the text focus the reader on the core concepts and theories while offering optional, more advanced sections, examples, and cutting-edge applications to suit a variety of students and courses. Critically acclaimed for his lucid style, in the second edition, Randy Harris applies the same insights into recent developments in physics, engineering, and technology.

 

Table of Contents

Contents
Sections marked with a [insert optional icon] are optional and at the same level as the 
main sections.
Sections marked with a [insert advanced icon] are optional and more advanced.
Preface 
1 Dawn of a New Age
1.1	Troubling Questions 
1.2	A Glimpse at the New World
2 Special Relativity
2.1	Basic Ideas
2.2	Consequences of Einstein?s Postulates 
2.3	The Lorentz Transformation Equations
2.4	The Twin Paradox
2.5	The Doppler Effect
2.6	Velocity Transformation
2.7	Momentum and Energy
2.8	General Relativity and Cosmology
2.9	The Light Barrier
2.10	The Fourth Dimension
Progress and Applications
Summary 
Exercises
3 Waves and Particles I: Electromagnetic Radiation Behaving as Particles
3.1	Blackbody Radiation: A New Fundamental Constant
3.2	The Photoelectric Effect
3.3	The Production of X Rays
3.4	The Compton Effect
3.5	Pair Production
3.6	Is it a Wave, or a Particle?
Progress and Applications
Summary
Exercises
4 Waves and Particles II: Matter Behaving as Waves
4.1	A Two-Slit Experiment
4.2	Properties of Matter Waves
4.3	The Free-Particle Schr¿dinger Equation
4.4	The Uncertainty Principle
4.5	The Not-Unseen Observer
4.6	The Bohr Model of the Atom
4.7	Mathematical Basis of the Uncertainty Principle?The Fourier 
Transform
Progress and Applications
Summary
Exercises
5 Bound States: Simple Cases
5.1	The Schr¿dinger Equation
5.2	Stationary States
5.3	Physical Conditions: Well-Behaved Functions
5.4	A Review of Classical Bound States
5.5	Case 1: Particle in a Box?Infinite Well 
5.6	Case 2: The Finite Well
5.7	Case 3: The Simple Harmonic Oscillator
5.8	Expectation Values, Uncertainties, and Operators
5.9	Nonstationary States
5.10	The Computer Approach
5.11	Well-defined Observables: Eigenvalues
Progress and Applications
Summary
Exercises
6 Unbound States: Obstacles, Tunneling and Particle-Wave Propagation
6.1	The Potential Step
6.2	The Potential Barrier and Tunneling
6.3	Alpha Decay and Other Applications
6.4	Particle-Wave Propagation
Progress and Applications
Summary
Exercises
7 Quantum Mechanics in Three Dimensions and The Hydrogen Atom
7.1	The Schr¿dinger Equation in Three Dimensions
7.2	The 3D Infinite Well
7.3	Energy Quantization and Spectral Lines in Hydrogen
7.4	The Schr¿dinger Equation for a Central Force
7.5	Angular Behavior in a Central Force
7.6	The Hydrogen Atom
7.7	Radial Probability
7.8	Hydrogenlike Atoms
7.9	A Solution Examined
7.10	Photon Emission: Rules and Rates
Progress and Applications
Summary
Exercises
8 Spin and Atomic Physics
8.1	Evidence of Angular Momentum Quantization: A New Property
8.2	Identical Particles
8.3	The Exclusion Principle
8.4	Multielectron Atoms and the Periodic Table
8.5	Characteristic X Rays
8.6	The Spin-Orbit Interaction
8.7	Adding Angular Momenta
8.8	External Magnetic Fields and the Z-axis
8.9	Excitation Spectra
Progress and Applications
Summary
Exercises
9 Statistical Mechanics
9.1	A Simple Thermodynamic System
9.2	Entropy and Temperature
9.3	The Boltzmann Distribution
9.4	Classical Averages
9.5	Quantum Distributions
9.6	The Quantum Gas
9.7	Massless Bosons: The Photon Gas
9.8	The Laser
9.9	Specific Heats 
Progress and Applications
Summary
Exercises
10 Bonding: Molecules and Solids
10.1	When Atoms Come Together
10.2	Molecules
10.3	Rotation and Vibration
10.4	Crystalline Solids
10.5	Energy Bands and Electrical Conduction
10.6	Conductors, Insulators and Semiconductors
10.7	Semiconductor Theory
10.8	Semiconductor Devices
10.9	Superconductivity
10.10	Fullerenes
Progress and Applications
Summary
Exercises
11 Nuclear Physics
11.1	Basic Structure
11.2	Binding
11.3	Nuclear Models
11.4	Nuclear Magnetic Resonance and MRI
11.5	Radioactivity
11.6	The Radioactive Decay Law
11.7	Nuclear Reactions
Progress and Applications
Summary
Exercises
12 Fundamental Particles and Interactions
12.1	How Forces Act
12.2	Antiparticles
12.3	Forces and Particles: How Many?
12.4	Particle Production and Detection
12.5	Decay Modes and Conservation Rules in the Standard Model
12.6	Parity, Charge Conjugation, and Time Reversal
12.7	Unified Theories and Cosmology
Progress and Applications
Summary
Exercises
Appendices
A	The Michelson-Morley Experiment
B	Lorentz Transformation: Plotting Events
C	Planck?s Blackbody Radiation Law
D	Solving for the Fourier Transform
E	The Momentum Operator
F	Time-Evolution of a Gaussian Wave Packet
G	The Operator for L2
H	Energy Distributions
I	Properties of Isotopes
J	Probability, Mean, Standard Deviation and Numbers of Ways
K	Some Important Math
Solutions to selected Exercises
Index

People Also Search:

modern physics 2/e

modern physics 2/e 2nd edition randy harris

modern physics 2/e 2nd edition

modern physics 2/e 2nd edition download scribd

modern physics 2/e 2nd edition solution manual download pdf

modern physics randy harris