TY - BOOK ID - 70476804 TI - Linear partial differential equations and Fourier theory PY - 2010 SN - 9780521199704 0521199700 9780521136594 0521136598 9780511810183 9780511764615 0511764618 9780511769924 051176992X 9780511766855 0511766858 0511810180 1107205719 1282653113 0511769083 9786612653117 0511765460 0511768249 PB - Cambridge, UK : Cambridge University Press, DB - UniCat KW - Differential equations, Partial. KW - Differential equations, Linear. KW - Fourier transformations. KW - Équations aux dérivées partielles linéaires. KW - Fourier, Transformations de. KW - Transformations, Fourier KW - Transforms, Fourier KW - Fourier analysis KW - Transformations (Mathematics) KW - Linear differential equations KW - Linear systems KW - Partial differential equations UR - https://www.unicat.be/uniCat?func=search&query=sysid:70476804 AB - Do you want a rigorous book that remembers where PDEs come from and what they look like? This highly visual introduction to linear PDEs and initial/boundary value problems connects the math to physical reality, all the time providing a rigorous mathematical foundation for all solution methods. Readers are gradually introduced to abstraction – the most powerful tool for solving problems – rather than simply drilled in the practice of imitating solutions to given examples. The book is therefore ideal for students in mathematics and physics who require a more theoretical treatment than given in most introductory texts. Also designed with lecturers in mind, the fully modular presentation is easily adapted to a course of one-hour lectures, and a suggested 12-week syllabus is included to aid planning. Downloadable files for the hundreds of figures, hundreds of challenging exercises, and practice problems that appear in the book are available online, as are solutions. Online resources include full-colour and three-dimensional illustrations, practice problems and complete solutions for instructors. Includes a suggested twelve-week syllabus and lists recommended prerequisites for each section. Contains nearly 400 challenging theoretical exercises [Publisher] ER -