Functional Differential Equations

1. Introduction.- 2. A General Initial Value Problem.- 3. Existence.- 4. Continuation of Solutions.- 5. Continuous Dependence and Uniqueness.- 6. Backward Continuation.- 7. Caratheodory Conditions.- 8. Remarks on the Map Defined by Solutions.- 9. Autonomous Systems.- 10. Definitions of Stability.- 11. Sufficient Conditions for Stability of General Systems.- 12. Sufficient Conditions for Instability.- 13. Stability in Autonomous Systems.- 14. An Example of Levin and Nohel.- 15. An Equation of Volterra.- 16. Nonhomogeneous Linear Systems.- 17. The "Adjoint" Equation and Representation of Solutions.- 18. Stability of Perturbed Systems.- 19. Linear Autonomous Equations. The Semigroup and Infinitesimal Generator.- 20. The Eigenvalues of a Linear Autonomous Equation. Decomposition of C.- 21. Decomposing C with the Adjoint Equation.- 22. Estimates on the Complementary Subspace.- 23. An Example.- 24. The Decomposition in the Variation of Constants Formula.- 25. Forced Linear Systems.- 26. The Saddle Point Property.- 27. A Fixed Point Theorem for Cones.- 28. A Periodicity Theorem for Functional Equations.- 29. The Equation $${\rm{\dot x}}\left( {\rm{t}} \right) = - \alpha {\rm{x}}\left( {{\rm{t}} - 1} \right)\left[ {{\rm{l}} + {\rm{x}}\left( {\rm{t}} \right)} \right]$$.- 30. The Equation $${\rm{\dot x}}\left( {\rm{t}} \right) = - \alpha {\rm{x}}\left( {{\rm{t}} - 1} \right)\left[ {{\rm{l}} + {\rm{x}}^2 \left( {\rm{t}} \right)} \right]$$.- 31. The Equation $${\rm{\ddot x}}\left( {\rm{t}} \right) + {\rm{f}}\left( {{\rm{x}}\left( {\rm{t}} \right){\rm{\dot x}}\left( {\rm{t}} \right)} \right) + {\rm{g}}\left( {{\rm{x}}\left( {{\rm{t}} - {\rm{r}}} \right)} \right) = 0$$.- 32. The "Adjoint" Equation for General Linear Systems.- 33. The True Adjoint of a Linear System.- 34. Boundary Value Problems.- 35. Linear Periodic Systems. General Theory.- 36. Decomposition of Linear Periodic Systems.- 37. Nondegenerate Periodic Orbits.- 38. Notes and Remarks.