Rasche Notation 2 pocketbook. This is a clear and easy dance notation system for Argentine Tango. You can write your dance steps and dance phrases. Discover how you can write many steps with just a few symbols! This book features a quick, easy and intuitive guide to learning the newly revised version of Rasche Notation. Rasche Notation 2 is easy to write, using paper or a computer. The man's and woman's steps are set to music. This book suits all levels. It includes explanations, examples and practice staves. Summaries in Spanish and German. www.RascheNotation.com
The Rasche Notation system for writing Argentine Tango dance steps. You can write your steps! Also available are notebooks and pencils at www.RascheNotation.com
The dance of Argentine Tango: it's more than just a dance, it is also a culture ...This book is a valuable companion for all students of Argentine Tango. It introduces the reader to the history and cultural context of the dance, together with key insights. Written in a clear and accessible style, this makes an excellent and enjoyable compliment to dance classes at every level of ability. Prologue by Damian Esell.
This Proceedings contains lectures given at the third annual Physics Summer School held at The Australian National University. The courses were planned to provide a balanced overview of low, intermediate and high energy nuclear and particle physics for both theorists and experimentalists. The lectures start at an introductory level and build up to a stage where the reader can appreciate the challenges of current research fields.
Intelligent technical systems, which combine mechanical, electrical and software engineering with methods from control engineering and advanced mathematics, go far beyond the state of the art in mechatronics and open up fascinating perspectives. Among these systems are so-called self-optimizing systems, which are able to adapt their behavior autonomously and flexibly to changing operating conditions. The Collaborative Research Center 614 "Self-optimizing concepts and structures in mechanical engineering" pursued the long-term aim to enable others to develop dependable self-optimizing systems. Assuring their dependability poses new challenges. However, self-optimization also offers the possibility to adapt the system's behavior to improve dependability during operation. The aim of this book is to provide methods and techniques to master the challenges and to exploit the possibilities given by self-optimization. The reader will be able to develop self-optimizing systems that fulfill and surpass today’s dependability requirements easily. This book is directed to researchers and practitioners alike. It gives a brief introduction to the holistic development approach for self-optimizing mechatronic systems and the steps required to assure a dependable product design starting with the very early conceptual design phase. A guideline to select suitable methods for each step and the methods themselves are included. Each method is individually introduced, many examples and full references are given.
