Posted by **arundhati** at Nov. 11, 2014

2014 | ISBN-10: 3642541232 | 602 pages | PDF | 7 MB

Posted by **ChrisRedfield** at April 28, 2014

Published: 2009-11-02 | ISBN: 3642001726 | PDF | 588 pages | 11 MB

Posted by **interes** at Jan. 16, 2014

English | 2009 | ISBN: 3642001726 | 596 pages | PDF | 5,5 MB

This textbook offers an accessible and highly-effective approach which is characterised by the combination of the textbook with a detailed study guide on an accompanying CD. This study guide divides the whole learning task into small units which the student is very likely to master successfully.

Posted by **Underaglassmoon** at Nov. 10, 2017

De Gruyter | English | Dec 2017 | ISBN-10: 3110562359 | 520 pages | PDF | 4.86 mb

by Arak M Mathai (Author)

Posted by **ChrisRedfield** at Oct. 28, 2017

Published: 2014-05-01 | ISBN: 3319051997 | PDF | 518 pages | 8.04 MB

Posted by **AvaxGenius** at July 30, 2017

English | EPUB | 2017 | 376 Pages | ISBN : 3662484951 | 4.86 MB

This book comprehensively presents topics, such as Dirac notation, tensor analysis, elementary differential geometry of moving surfaces, and k-differential forms. Additionally, two new chapters of Cartan differential forms and Dirac and tensor notations in quantum mechanics are added to this second edition.

Posted by **libr** at April 9, 2017

English | 2014 | ISBN: 1466598077 | 551 pages | PDF | 9,7 MB

Posted by **AvaxGenius** at March 3, 2017

English | EPUB | 2017 | 376 Pages | ISBN : 3662484951 | 4.86 MB

This book comprehensively presents topics, such as Dirac notation, tensor analysis, elementary differential geometry of moving surfaces, and k-differential forms. Additionally, two new chapters of Cartan differential forms and Dirac and tensor notations in quantum mechanics are added to this second edition.

Posted by **arundhati** at Feb. 23, 2017

2017 | ISBN-10: 3319446592 | 220 pages | PDF | 3 MB

Posted by **hill0** at Jan. 15, 2017

English | 16 Dec. 2016 | ISBN: 3319446592 | 232 Pages | EPUB | 2.31 MB

This book covers the basics of numerical methods, while avoiding the definition-theorem-proof style and instead focusing on numerical examples and simple pseudo-codes.