Download Free Science And Technology And The Changing World Order Book in PDF and EPUB Free Download. You can read online Science And Technology And The Changing World Order and write the review.

As part of its contribution to the 1979 United Nations Conference on Science and Technology for Development IUNCSTD) the United Nations Institute for Training and Research jUNITAR) organized an informal research group to assess various aspects of applying science and technology to development through the United Nations system. This research group was constituted in early 1978 at the initiative of Dr. Robert S. Jordan, former Director of Research at UNITAR, and was headed by Professor Volker Rittberger, a UNITAR Special Fellow. One of the activities of this group has been the production of a series of working papers on science and technology. These papers seek to provide preliminary analyses rather than definitive conclusions. Their purpose is to facilitate the access of others to the ongoing work of the group and to stimulate critical comments and reactions leading to further improvement of this work.
Publisher description
Along with the political and economic reforms that have characterized the post-Mao era in China there has been a potentially revolutionary change in Chinese science and technology. Here sixteen scholars examine various facets of the current science and technology scene, comparing it with the past and speculating about future trends. Two chapters dealing with science under the Nationalists and under Mao are followed by a section of extensive analysis of reforms under Deng Xiaoping, focusing on the organizational system, the use of human resources, and the emerging response to market forces. Chapters dealing with changes in medical care, agriculture, and military research and development demonstrate how these reforms have affected specific areas during the Chinese shift away from Party orthodoxy and Maoist populism toward professional expertise as the guiding principle in science and technology. Three further chapters deal with China's interface with the world at large in the process of technology transfer. Both the introductory and concluding chapters describe the tension between the Chinese Communist Party structure, with its inclinations toward strict vertical control, and the scientific and technological community's need for a free flow of information across organizational, disciplinary, and national boundaries.
Science is a living, organic activity, the meaning and understanding of which have evolved incrementally over human history. This book, the second in a roughly chronological series, explores the evolution of science from the advents of Christianity and Islam through the Middle Ages, focusing especially on the historical relationship between science and religion. Specific topics include technological innovations during the Middle Ages; Islamic science; the Crusades; Gothic cathedrals; and the founding of Western universities. Close attention is given to such figures as Paul the Apostle, Hippolytus, Lactantius, Cyril of Alexandria, Hypatia, Cosmas Indicopleustes, and the Prophet Mohammed.
Against the backdrop of the recent trend towards megaregional trade initiatives, this book addresses the most topical issues that lie at the intersection of law and technology. By assessing international law and the political economy, the contributing authors offer an enhanced understanding of the challenges of diverging regulatory approaches to innovation.
Science is a living, organic activity, the meaning and understanding of which have evolved incrementally over human history. This book, the first in a roughly chronological series, explores the development of the methodology and major ideas of science, in historical context, from ancient times to the decline of classical civilizations around 300 A.D. It includes details specific to the histories of specialized sciences including astronomy, medicine and physics--along with Roman engineering and Greek philosophy. It closely describes the contributions of such individuals as Pythagoras, Hippocrates, Socrates, Plato, Aristotle, Alexander the Great, Euclid, Archimedes, Ptolemy, Seneca, Pliny the Elder, and Galen.
Diplomacy for the 21st Century recommends steps that the Department of State should embrace to take full advantage of the leading science and technology (S&T) capabilities of the United States. These capabilities provide the department with many opportunities to promote a variety of the interests of the United States and its allies in a rapidly changing world wherein S&T are important drivers of economic development at home and abroad and help ensure international security. This report assesses and makes recommendations concerning the changing environment for the conduct of diplomacy in the years ahead, with a focus on the role of S&T in the development and implementation of U.S. policies and programs. According to this report, prompt steps by the department's leadership are essential to ensure adequate comprehension of the importance of S&T-related developments throughout the world and to incorporate this understanding within the nation's foreign policy for the 21st century. This report also urges the adoption by the department of a broader whole-of-society approach in carrying out its responsibilities at home and abroad - extending beyond traditional interagency coordination and the narrow band of current external partners to include foundations, universities, research centers, and other groups who are extending their international reach.
Basic scientific research and technological development have had an enormous impact on innovation, economic growth, and social well-being. Yet science policy debates have long been dominated by advocates for particular scientific fields or missions. In the absence of a deeper understanding of the changing framework in which innovation occurs, policymakers cannot predict how best to make and manage investments to exploit our most promising and important opportunities. Since 2005, a science of science policy has developed rapidly in response to policymakers' increased demands for better tools and the social sciences' capacity to provide them. The Science of Science Policy: A Handbook brings together some of the best and brightest minds working in science policy to explore the foundations of an evidence-based platform for the field. The contributions in this book provide an overview of the current state of the science of science policy from three angles: theoretical, empirical, and policy in practice. They offer perspectives from the broader social science, behavioral science, and policy communities on the fascinating challenges and prospects in this evolving arena. Drawing on domestic and international experiences, the text delivers insights about the critical questions that create a demand for a science of science policy.
Celebrates the creativity of humanity by examining the history of technology as a strategy to solve real-world problems.
Why the United States lags behind other industrialized countries in sharing the benefits of innovation with workers and how we can remedy the problem. The United States has too many low-quality, low-wage jobs. Every country has its share, but those in the United States are especially poorly paid and often without benefits. Meanwhile, overall productivity increases steadily and new technology has transformed large parts of the economy, enhancing the skills and paychecks of higher paid knowledge workers. What’s wrong with this picture? Why have so many workers benefited so little from decades of growth? The Work of the Future shows that technology is neither the problem nor the solution. We can build better jobs if we create institutions that leverage technological innovation and also support workers though long cycles of technological transformation. Building on findings from the multiyear MIT Task Force on the Work of the Future, the book argues that we must foster institutional innovations that complement technological change. Skills programs that emphasize work-based and hybrid learning (in person and online), for example, empower workers to become and remain productive in a continuously evolving workplace. Industries fueled by new technology that augments workers can supply good jobs, and federal investment in R&D can help make these industries worker-friendly. We must act to ensure that the labor market of the future offers benefits, opportunity, and a measure of economic security to all.