This book presents problems and solutions of the mathematical theories of thermoelasticity and magnetothermoelasticity. The classical, coupled and generalized theories are solved using the eigenvalue methodology. Different methods of numerical inversion of the Laplace transform are presented and their direct applications are illustrated. The book is very useful to those interested in continuum mechanics.
This book presents problems and solutions of the mathematical theories of thermoelasticity and magnetothermoelasticity. The classical, coupled and generalized theories are solved using the eigenvalue methodology. Different methods of numerical inversion of the Laplace transform are presented and their direct applications are illustrated. The book is very useful to those interested in continuum mechanics.
Presents and solves eight problems on thermoelasticity and magneto-thermoelasticity in a simple way Illustrates the direct applications of the Bellman and the Zakian methods Solves the vector-matrix differential equation in three co-ordinate systems (cartesian, spherical and cylindrical) Includes supplementary material: sn.pub/extras
B. Das
Coupled thermoelasticity Generalized thermoelasticity Numerical inversion Laplace transform Bellman method Zakian method