Abstract
1. The finite element method: introductory remarks 2. Some methods for solving continuum problems 3. Variational approach 4. Requirements for the interpolation functions 5. Heat transfer applications 6. One-dimensional steady-state problems 7. The two-dimensional heat conduction problem 8. Three-dimensional heat conduction applications 9. One-dimensional transient problems 10. Fluid mechanics finite-element applications 11. Use of nodeless degrees of freedom 12. Finite element analysis in curvilinear coordinates 13. Finite element modeling in annular passages 14. Extracting the F.E. domain from a larger flow system 15. Finite element application to unsteady flow problems 16. F.E.-based perturbation approach to unsteady flows.
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