Posted by **ksveta6** at Feb. 22, 2017

2016 | ISBN: 1498739644 | English | 1004 pages | PDF | 24 MB

Posted by **JohnZulzman** at Oct. 4, 2014

CRC Press | ISBN: 0849378540 | 656 pages | PDF | October 27, 1997 | English | 17 Mb

Posted by **JohnZulzman** at Oct. 4, 2014

Chapman and Hall/CRC; 2 edition | ISBN: 1584883499 | 840 pages | PDF | March 28, 2003 | English | 21 Mb

Posted by **AlenMiler** at Oct. 29, 2016

English | 21 Oct. 2016 | ISBN: 1539668908 | 331 Pages | PDF | 4.27 MB

This book focuses on in-depth treatment of multi-equation and single-equation econometric models.

Posted by **roxul** at Feb. 8, 2016

English | ISBN: 084939533X | 2009 | 522 pages | PDF | 8 MB

Posted by **arundhati** at June 23, 2015

English | ISBN: 084939533X | 2009 | 522 pages | PDF | 8 MB

Posted by **tanas.olesya** at March 1, 2015

English | July 6, 2006 | ISBN: 9812568735, 9812568727 | 260 Pages | PDF | 43 MB

This invaluable textbook serves two purposes. The first is to introduce some traditional topics such as matrix formalism of geometrical optics, wave propagation and diffraction, and some fundamental background on fourier optics.

Posted by **roxul** at Sept. 22, 2014

English | ISBN: 084939533X | 2009 | 522 pages | PDF | 8 MB

Posted by **fdts** at Sept. 17, 2012

by David M. Smith

Addison Wesley; 2 edition | English | 2008 | ISBN: 0136080634 | 480 pages | PDF | 12.6 MB

Posted by **bathrinath** at Oct. 14, 2008

Advanced Engineering Mathematics with Mapleā¢ is the definitive reference software and textbook for engineering mathematics. The only fully electronic book of its kind on this popular subject, it is an essential resource for every engineering professional or student. The author, Dr. Robert J. Lopez, is a renowned professor and Maple expert, who has pioneered the instructional use of Maple for general and engineering mathematics.

This comprehensive text covers all major areas of engineering mathematics. As an interactive electronic book, the reader can interact with the mathematics and graphs in the book, exploring parameters, running what-if scenarios, and modifying examples to solve specific problems.