Textbook Solutions Differential Equations 00 4th Edition | 9780495561989
ISBN: 9780495561989
Author Paul (Paul Blanchard) Blanchard, Robert L. Devaney, Glen R. Hall
Solutions by Chapter
- Chapter APPENDIX A: CHANGING VARIABLES
- Chapter APPENDIX B: POWER SERIES: THE ULTIMATE GUESS
- Chapter LAB 1.1: Rate of Memorization Model
- Chapter LAB 2.1: Two Magnets and a Spring
- Chapter LAB 3.1: Bifurcations in Linear Systems
- Chapter LAB 4.1: Two Magnets and a Spring Revisited
- Chapter LAB 5.1: Hard and Soft Springs
- Chapter LAB 6.1: Poles
- Chapter LAB 7.1: Errors of Numerical Approximations
- Chapter LAB 8.1: Newtons Method as a Difference Equation
- Chapter LAB 1.2: Growth of a Population of Mold
- Chapter LAB 2.2: Cooperative and Competitive Species
- Chapter LAB 3.2: RLC Circuits
- Chapter LAB 4.2: A Periodically Forced RLC Circuit
- Chapter LAB 5.2: Higher Order Approximations of the Pendulum
- Chapter LAB 6.2: Convolutions
- Chapter LAB 7.2: Lost in Space
- Chapter LAB 8.2: The Delayed Logistic and Two-Dimensional Iteration
- Chapter LAB 1.3: Logistic Population Models with Harvesting
- Chapter LAB 2.3: The Harmonic Oscillator with Modified Damping
- Chapter LAB 3.3: Measuring Mass in Space
- Chapter LAB 4.3: The Tacoma Narrows Bridge
- Chapter LAB 5.3: A Family of Predator-Prey Equations
- Chapter LAB 8.3: The Bifurcation Diagram
- Chapter LAB 1.4: Exponential and Logistic Population Models
- Chapter LAB 2.4: A Mass-Spring System with a Rubber Band
- Chapter LAB 3.4: Exploring a Parameter Space
- Chapter LAB 5.4: The Glider
- Chapter LAB 1.5: Modeling Oil Production
- Chapter LAB 2.5: Active Shock Absorbers
- Chapter LAB 3.5: Find Your Own Harmonic Oscillator
- Chapter LAB 3.6: A Baby Bottle Harmonic Oscillator
- Chapter 1: First-Order Differential Equations
- Chapter 1.1: MODELING VIA DIFFERENTIAL EQUATIONS
- Chapter 1.2: ANALYTIC TECHNIQUE: SEPARATION OF VARIABLES
- Chapter 1.3: QUALITATIVE TECHNIQUE: SLOPE FIELDS
- Chapter 1.4: NUMERICAL TECHNIQUE: EULERS METHOD
- Chapter 1.5: EXISTENCE AND UNIQUENESS OF SOLUTIONS
- Chapter 1.6: EQUILIBRIA AND THE PHASE LINE
- Chapter 1.7: BIFURCATIONS
- Chapter 1.8: LINEAR EQUATIONS
- Chapter 1.9: INTEGRATING FACTORS FOR LINEAR EQUATIONS
- Chapter 2: First-Order Systems
- Chapter 2.1: MODELING VIA SYSTEMS
- Chapter 2.2: THE GEOMETRY OF SYSTEMS
- Chapter 2.3: THE DAMPED HARMONIC OSCILLATOR
- Chapter 2.4: ADDITIONAL ANALYTIC METHODS FOR SPECIAL SYSTEMS
- Chapter 2.5: EULERS METHOD FOR SYSTEMS
- Chapter 2.6: Existence and Uniqueness for Systems
- Chapter 2.7: THE SIR MODEL OF AN EPIDEMIC
- Chapter 2.8: THE LORENZ EQUATIONS
- Chapter 3: Linear Systems
- Chapter 3.1: PROPERTIES OF LINEAR SYSTEMS AND THE LINEARITY PRINCIPLE
- Chapter 3.2: STRAIGHT-LINE SOLUTIONS
- Chapter 3.3: PHASE PORTRAITS FOR LINEAR SYSTEMS WITH REAL EIGENVALUES
- Chapter 3.4: COMPLEX EIGENVALUES
- Chapter 3.5: SPECIAL CASES: REPEATED AND ZERO EIGENVALUES
- Chapter 3.6: SECOND-ORDER LINEAR EQUATIONS
- Chapter 3.7: THE TRACE-DETERMINANT PLANE
- Chapter 3.8: LINEAR SYSTEMS IN THREE DIMENSIONS
- Chapter 4: Forcing and Resonance
- Chapter 4.1: FORCED HARMONIC OSCILLATORS
- Chapter 4.2: SINUSOIDAL FORCING
- Chapter 4.3: UNDAMPED FORCING AND RESONANCE
- Chapter 4.4: AMPLITUDE AND PHASE OF THE STEADY STATE
- Chapter 4.5: THE TACOMA NARROWS BRIDGE
- Chapter 5: Nonlinear Systems
- Chapter 5.1: EQUILIBRIUM POINT ANALYSIS
- Chapter 5.2: QUALITATIVE ANALYSIS
- Chapter 5.3: HAMILTONIAN SYSTEMS
- Chapter 5.4: DISSIPATIVE SYSTEMS
- Chapter 5.5: NONLINEAR SYSTEMS IN THREE DIMENSIONS
- Chapter 5.6: PERIODIC FORCING OF NONLINEAR SYSTEMS AND CHAOS
- Chapter 6: Laplace Transforms
- Chapter 6.1: LAPLACE TRANSFORMS
- Chapter 6.2: DISCONTINUOUS FUNCTIONS
- Chapter 6.3: SECOND-ORDER EQUATIONS
- Chapter 6.4: DELTA FUNCTIONS AND IMPULSE FORCING
- Chapter 6.5: CONVOLUTIONS
- Chapter 6.6: THE QUALITATIVE THEORY OF LAPLACE TRANSFORMS
- Chapter 7: Numerical Methods
- Chapter 7.1: NUMERICAL ERROR IN EULERS METHOD
- Chapter 7.2: IMPROVING EULERS METHOD
- Chapter 7.3: THE RUNGE-KUTTA METHOD
- Chapter 7.4: THE EFFECTS OF FINITE ARITHMETIC
- Chapter 8: Discrete Dynamical Systems
- Chapter 8.1: THE DISCRETE LOGISTIC EQUATION
- Chapter 8.2: FIXED POINTS AND PERIODIC POINTS
- Chapter 8.3: BIFURCATIONS
- Chapter 8.4: CHAOS
Reviews
georellemarcmatias ( 1)
3/11/19
Textbook: Differential Equations 00
Edition: 4
Author: Paul (Paul Blanchard) Blanchard, Robert L. Devaney, Glen R. Hall
ISBN: 9780495561989
The full step-by-step solution to problem in Differential Equations 00 were answered by , our top Math solution expert on 01/02/18, 08:51PM. Differential Equations 00 was written by and is associated to the ISBN: 9780495561989. This textbook survival guide was created for the textbook: Differential Equations 00, edition: 4. This expansive textbook survival guide covers the following chapters: 90. Since problems from 90 chapters in Differential Equations 00 have been answered, more than 86930 students have viewed full step-by-step answer.
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