The annual collections in the History of Technology series look at the history of technological discovery and change, exploring the relationship of technology to other aspects of life and showing how technological development is affected by the society in which it occurred.

This second part of the sixth volume of Joeph Needham's great enterprise is an account of the technological history of agriculture, with major sections devoted to field systems, implements and techniques (sowing, harvesting, storing) and crop systems (what has grown and where and how crops rotated).

The technical problems confronting different societies and periods, and the measures taken to solve them form the concern of this annual collection of essays. Volumes contain technical articles ranging widely in subject, time and region, as well as general papers on the history of technology. In addition to dealing with the history of technical discovery and change, History of Technology also explores the relations of technology to other aspects of life -- social, cultural and economic -- and shows how technological development has shaped, and been shaped by, the society in which it occurred.

The technical problems confronting different societies and periods, and the measures taken to solve them form the concern of this annual collection of essays. Volumes contain technical articles ranging widely in subject, time and region, as well as general papers on the history of technology. In addition to dealing with the history of technical discovery and change, History of Technology also explores the relations of technology to other aspects of life -- social, cultural and economic -- and shows how technological development has shaped, and been shaped by, the society in which it occurred.

The annual collections in the History of Technology series look at the history of technological discovery and change, exploring the relationship of technology to other aspects of life and showing how technological development is affected by the society in which it occurred.

Volume 6. Part III of Science and Civilisation in China contains two separate works. The first, by Christian Daniels, is a comprehensive history of Chinese sugar cane technology from ancient times to the early twentieth century. The second, by Nicholas K. Menzies, is a history of forestry in China.

The common question from the western point of view is of the sort; why did China lose its early leadership of productive technologies to Europe during the early modern period? Answers to this seemingly clear enquiry vary from general cultural inwardness to the interferences of imperial governance. This collection surveys such theories but alters the issue by raising the notion that Chinese technologies did not so much fail as move along a path different from that of Europe. Our second collection on the Mindful Hand, also shifts common ground by querying and modifying common views of the links between knowledge and technique in early-modern European development. Scientific or related knowledge was not brought to technique as a socio-cultural gift from an educated elite to the working man. Rather, educated gents, practitioners, instrument makers, craftsfolk and technicians of all kinds intermingled both socially and in terms of the recognition of technical problems as well as in the assemblage of the mental, commercial and cognitive resources required to pursue innovative production projects.

The technical problems confronting different societies and periods and the measures taken to solve them form the concern of this annual collection of essays. It deals with the history of technical discovery and change and explores the relationship of technology to other aspects of life - social, cultural and economic - showing how technological development has shaped, and been shaped by, the society in which it occurred.

As particle accelerators strive forever increasing performance, high intensity particle beams become one of the critical demands requested across the board by a majority of accelerator users (proton, electron and ion) and for most applications. Much effort has been made by our community to pursue high intensity accelerator performance on a number of fronts. Recognizing its importance, we devote this volume to Accelerators for High Intensity Beams. High intensity accelerators have become a frontier and a network for innovation. They are responsible for many scientific discoveries and technological breakthroughs that have changed our way of life, often taken for granted. A wide range of topics is covered in the fourteen articles in this volume. Contents:Beams for the Intensity Frontier of Particle Physics (R S Tschirhart)Intensity Frontier of Accelerators for Nuclear Physics (K Imai)Radioactive Ion Beams and Radiopharmaceuticals (R E Laxdal, A C Morton and P Schaffer)Spallation Neutron Sources and Accelerator Driven Systems (S D Henderson)Accelerators for Inertial Fusion Energy Production (R O Bangerter, A Faltens and P A Seidl)Particle Beam Radiography (K Peach and C Ekdahl)Rapid Cycling Synchrotrons and Accumulator Rings for High-Intensity Hadron Beams (J-Y Tang)Superconducting Hadron Linacs (P Ostroumov and F Gerigk)Ion Injectors for High Intensity Accelerators (M P Stockli and T Nakagawa)Charge Strippers of Heavy Ions for High-Intensity Accelerators (J A Nolen and F Marti)Targets and Secondary Beam Extraction (E Noah)High Intensity Neutron Beamlines (P M Bentley, C P Cooper-Jensen and K H Andersen)Beam-Materials Interactions (N V Mokhov)John Adams and CERN: Personal Recollections (G Brianti and D E Plane) Readership: Physicists and engineers in accelerator science and industry. Keywords:High-Intensity Accelerators;High-Intensity Beams;Hadron Linacs;Fusion Energy