Posted by **tanas.olesya** at Nov. 30, 2014

English | February 21, 2003 | ISBN: 007140967X | 141 pages | PDF | 6 MB

Boiled-down essentials of the top-selling Schaum's Outline series, for the student with limited time.

Posted by **rotten comics** at Nov. 23, 2016

2003 | ISBN: 007140967X | English | 141 pages | PDF | 6.5 MB

Posted by **tanas.olesya** at Nov. 27, 2014

English | January 1987 | ISBN: 0132528754 | 545 pages | DJVU | 3 MB

This text is designed for engineers, scientists, and mathematicians with a background in elementary ordinary differential equations and calculus.

Posted by **DZ123** at Sept. 4, 2014

English | 2003 | ISBN: 007140967X | PDF | pages: 143 | 6,2 mb

Posted by **step778** at Aug. 20, 2013

2003 | pages: 142 | ISBN: 007140967X | PDF | 13,4 mb

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

English | 2010 | ISBN: 0470617969 | 318 pages | PDF | 3,7 MB

Posted by **tanas.olesya** at Nov. 26, 2014

English | July 1, 1988 | ISBN: 0070079781 | 235 pages | PDF | 15 MB

Confusing Textbooks? Missed Lectures? Not Enough Time? Fortunately for you, there's Schaum's.

Posted by **interes** at May 12, 2014

English | 2010 | ISBN: 0470617969 | 318 pages | PDF | 3,7 MB

The importance of partial differential equations (PDEs) in modeling phenomena in engineering as well as in the physical, natural, and social sciences is well known by students and practitioners in these fields.

Posted by **avava** at March 15, 2012

Publisher: S**in–er | ISBN: 3642230989 | 2012 | PDF | 726 pages | 25 MB

Posted by **pepoimc** at Feb. 2, 2011

Publisher: John Wiley & Sons; 4 edition (January 17, 1989) | ISBN: 0471860034 | Pages: 399 | DJVU | 3.19 MB

A carefully revised edition of the well-respected ODE text, whose unique treatment provides a smooth transition to critical understanding of proofs of basic theorems. First chapters present a rigorous treatment of background material; middle chapters deal in detail with systems of nonlinear differential equations; final chapters are devoted to the study of second-order linear differential equations.