Posted by **tanas.olesya** at Sept. 4, 2015

English | 24 Jun. 1992 | ISBN: 0387977457 | 720 Pages | DJVU | 6 MB

This book treats nonlinear dynamics in both Hamiltonian and dissipative systems. The emphasis is on the mechanics for generating chaotic motion, methods of calculating the transitions from regular to chaotic motion, and the dynamical and statistical properties of the dynamics when it is chaotic.

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

English | 2016 | ISBN: 3319408011 | 359 pages | PDF | 9 MB

Posted by **interes** at Nov. 24, 2016

English | 2016 | ISBN: 3319408011 | 359 pages | PDF | 9 MB

Posted by **roxul** at Nov. 2, 2015

English | ISBN: 0199752079 | 2011 | 1260 pages | PDF | 6 MB

Posted by **exLib** at Jan. 26, 2015

InTeOpP | 2012 | ISBN: 9535102710 9789535102717 | 353 pages | PDF | 16 MB

This book is intended for use as a reference text to help advanced scientists and research engineers solve numerous and diverse fluid flow problems using computational fluid dynamics (CFD).

Posted by **interes** at May 5, 2014

English | 2009 | ISBN-10: 9812835288 | 258 pages | PDF | 13,4 MB

This volume contains a selection of papers presented at the 2008 Conference on Frontiers of Applied and Computational Mathematics (FACM'08), held at the New Jersey Institute of Technology (NJIT), May 19-21, 2008.

Posted by **nebulae** at Dec. 30, 2013

English | ISBN: 0199752079 | 2011 | 1260 pages | PDF | 6 MB

Posted by **hill0** at Oct. 23, 2017

English | 25 Apr. 2017 | ISBN: 331951170X | 457 Pages | EPUB | 6.74 MB

This book is intended as a text for a one-semester course on Mathematical and Computational Neuroscience for upper-level undergraduate and beginning graduate students of mathematics, the natural sciences

Posted by **nebulae** at Oct. 23, 2017

English | EPUB | 2017 (2018 Edition) | 561 Pages | ISBN : 3319569511 | 7 MB

Posted by **AvaxGenius** at Oct. 14, 2017

English | PDF,EPUB | 2017 (2018 Edition) | 109 Pages | ISBN : 9811060975 | 4.63 MB

The book addresses computational methods for solving the problem of vibration, response, loads and stability of a helicopter rotor blade modeled as a rotating beam with flap or out-of-plane bending. The focus is on explaining the implementation of the finite element method in the space and time domain for the free vibration, aeroelastic response and stability problems.