Book contents
- Frontmatter
- Contents
- Editor's Statement
- Foreword
- Preface
- The Cauchy Problem
- Chapter 0 Elements of Functional Analysis
- Chapter 1 The Cauchy Problem for Some Equations of Mathematical Physics: The Abstract Cauchy Problem
- Chapter 2 Properly Posed Cauchy Problems: General Theory
- Chapter 3 Dissipative Operators and Applications
- Chapter 4 Abstract Parabolic Equations: Applications to Second Order Parabolic Equations
- Chapter 5 Perturbation and Approximation of Abstract Differential Equations
- Chapter 6 Some Improperly Posed Cauchy Problems
- Chapter 7 The Abstract Cauchy Problem for Time-Dependent Equations
- Chapter 8 The Cauchy Problem in the Sense of Vector-Valued Distributions
- References
- Index
Chapter 6 - Some Improperly Posed Cauchy Problems
Published online by Cambridge University Press: 22 March 2010
- Frontmatter
- Contents
- Editor's Statement
- Foreword
- Preface
- The Cauchy Problem
- Chapter 0 Elements of Functional Analysis
- Chapter 1 The Cauchy Problem for Some Equations of Mathematical Physics: The Abstract Cauchy Problem
- Chapter 2 Properly Posed Cauchy Problems: General Theory
- Chapter 3 Dissipative Operators and Applications
- Chapter 4 Abstract Parabolic Equations: Applications to Second Order Parabolic Equations
- Chapter 5 Perturbation and Approximation of Abstract Differential Equations
- Chapter 6 Some Improperly Posed Cauchy Problems
- Chapter 7 The Abstract Cauchy Problem for Time-Dependent Equations
- Chapter 8 The Cauchy Problem in the Sense of Vector-Valued Distributions
- References
- Index
Summary
Certain physical phenomena lend themselves to modeling by non-standard Cauchy problems for abstract differential equations, such as the reversed Cauchy problem for abstract parabolic equations (Section 6.2) or the second order Cauchy problem in Section 6.5, where one of the initial conditions is replaced by a growth restriction at infinity. If these problems are correctly formulated, it is shown that they behave not unlike properly posed Cauchy problems: solutions exist and depend continuously on their data.
IMPROPERLY POSED PROBLEMS
Many physical phenomena are described by models that are not properly posed in any reasonable sense; certain initial conditions may fail to produce a solution in the model (although the phenomenon itself certainly has an outcome) and/or solutions may not depend continuously on their initial data. One such phenomenon is, say, the tossing of a coin on a table. Assuming we could measure with great precision the initial position and velocity of the coin, we could integrate the differential equations describing the motion and predict the outcome (head or tails); however, it is obvious that for certain trajectories, arbitrarily small errors in the measurement of initial position and velocity will produce radical changes in the predicted outcome. In studying phenomena like these we are then forced to abandon the deterministic point of view and to obtain information by other means (e.g., by probabilistic arguments). This was known to the creators of probability theory and was explicitly stated by Poincaré almost a century ago.
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- Information
- The Cauchy Problem , pp. 346 - 380Publisher: Cambridge University PressPrint publication year: 1984