# Applied methods in the theory of nonlinear oscillations by V. M. Starzhinskii

By V. M. Starzhinskii

By V. M. Starzhinskii

Similar applied books

Efficient numerical methods for non-local operators

Hierarchical matrices current a good approach of treating dense matrices that come up within the context of necessary equations, elliptic partial differential equations, and keep watch over idea. whereas a dense $n\times n$ matrix in typical illustration calls for $n^2$ devices of garage, a hierarchical matrix can approximate the matrix in a compact illustration requiring merely $O(n okay \log n)$ devices of garage, the place $k$ is a parameter controlling the accuracy.

CRC Standard Mathematical Tables and Formulae, 31st Edition

A perennial bestseller, the thirtieth version of CRC average Mathematical Tables and Formulae was once the 1st "modern" version of the instruction manual - tailored to be valuable within the period of private desktops and strong hand held units. Now this model will speedy determine itself because the "user-friendly" variation.

The State of Deformation in Earthlike Self-Gravitating Objects

This ebook offers an in-depth continuum mechanics research of the deformation as a result of self-gravitation in terrestrial gadgets, resembling the internal planets, rocky moons and asteroids. Following a quick background of the matter, sleek continuum mechanics instruments are awarded with a view to derive the underlying box equations, either for reliable and fluid fabric versions.

Additional resources for Applied methods in the theory of nonlinear oscillations

Sample text

It releases high energy and creates the fulgurite area— a cavity in the Earth. In it, chemical reactions with participation of soil consisting of sand, organic, and other components take place. A sand includes silica (SiO2 ) in its composition. A recovery of silica to metal silicon takes place, namely, in the reaction: SiO2 C 2C ! 5) Here, C is carbon and Si is silicon atoms. At high temperature, this leads to the formation of metallic chains, and those, appearing in air, create a ball-like formation of the type predicted by Smirnov [29].

V. W. R. Badnell, Astron. Astrophys. 492, 265 (2008) 26. S. Schippers, J. Phys. Conf. Ser. 163, 012001 (2009) 27. S. Schippers, M. Lestinsky, A. W. W. Schmidt, A. Wolf, Int. Rev. At. Mol. Phys. 1, 109 (2010) 28. R. Badnell, Astrophys. J. 651, L73 (2006) 29. S. Schippers, A. M¨uller, G. Gwinner, J. A. Saghiri, A. Wolf, Astrophys. J. 555, 1027 (2001) 30. R. Badnell, J. Phys. B 39, 4825 (2006) Chapter 2 Unravelling the Mysteries of Matter Surrounding Supermassive Black Holes A. Muller ¨ and S.

A Silberg, Appl. Phys. 49, 1111 (1978) 41. G. C. Dijkhuis, in Proceedings IX International Wroclaw Symposium on Electromagnetic Compatibility, Wroslaw, 1988, P. 166 42. K. , J. Geoph. Res. 99(D5), 10679–10681 (1994) 43. E. S. L. K. P. Kovshyk, Tech. Phys. 42(3), 269 (1997) 44. L. V. B. Timofeev, Tekh. Phys. 49(1), 128 (2004) 45. V. Konev, Physical Grounds of Plant Materials Combustion (Nauka, Novosibirsk, 1977) (In Russian) 46. K. V. A. E. Borisenko, JETP Lett. 84(11), 581 (2006) 47. S. C. A. de Vasconcelos, O.