Kung Fu has evolved from a traditional means of defence to become a system of attacking and defending oneself, with or without weapons, exercising the body and maintaining good physical and mental health. As such, these practices have found an international following. Yet what has remained a largely unexplored area is the scientific principles behind these martial arts. This book not only covers the brief history of Chinese martial arts, but also brings together the wisdom of a Kung Fu grand master with a scientist and teacher to explain the scientific reasons why Kung Fu is the powerful practice that it is. Using the principles of physics, biomechanics and biology, with a number of drawings showing some basic postures of Kung Fu, the authors present a deep understanding of how the styles, the specific movements and methods of attack and defence operate.
Kung Fu has evolved from a traditional means of defence to become a system of attacking and defending oneself, with or without weapons, exercising the body and maintaining good physical and mental health. As such, these practices have found an international following. Yet what has remained a largely unexplored area is the scientific principles behind these martial arts. This book not only covers the brief history of Chinese martial arts, but also brings together the wisdom of a Kung Fu grand master with a scientist and teacher to explain the scientific reasons why Kung Fu is the powerful practice that it is. Using the principles of physics, biomechanics and biology, with a number of drawings showing some basic postures of Kung Fu, the authors present a deep understanding of how the styles, the specific movements and methods of attack and defence operate.
Flexible electronics and optoelectronics are a key driver in the development of a low-cost, printable large-area electronic fabrication process. This book covers the fundamentals and applications. It begins with detailed explanation of the device physics, mechanical properties, charge transport, self-assembly of molecules, and materials chemistry. It shows why various physical and chemical properties are crucial in the design and manufacture of flexible electronics, and also discusses recent developments in nanostructured materials such as carbon nanotubes, metal oxides, and graphene for flexible electronics. Application chapters look at the specific commercial uses, from smart tags and electronics displays to biosensors and electronic textiles.
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