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Doctoral programs at U.S. universities play a critical role in the development of human resources both in the United States and abroad. This volume reports the results of an extensive study of U.S. research-doctorate programs in five broad fields: physical sciences and mathematics, engineering, social and behavioral sciences, biological sciences, and the humanities. Research-Doctorate Programs in the United States documents changes that have taken place in the size, structure, and quality of doctoral education since the widely used 1982 editions. This update provides selected information on nearly 4,000 doctoral programs in 41 subdisciplines at 274 doctorate-granting institutions. This volume also reports the results of the National Survey of Graduate Faculty, which polled a sample of faculty for their views on the scholarly quality of program faculty and the effectiveness of doctoral programs in preparing research scholars/scientists. This much-anticipated update of such an essential reference will be useful to education administrators, university faculty, and students seeking authoritative information on doctoral programs.
How should we assess and present information about the quality of research-doctorate programs? In recommending that the 1995 NRC rankings in Assessing the Quality of Research-Doctorate Programs: Continuity and Change be updated as soon as possible, this study presents an improved approach to doctoral program assessment which will be useful to administrators, faculty, and others with an interest in improving the education of Ph.D.s in the United States. It reviews the methodology of the 1995 NRC rankings and recommends changes, including the collection of new data about Ph.D. students, additional data about faculty, and new techniques to present data on the qualitative assessment of doctoral program reputation. It also recommends revision of the taxonomy of fields from that used in the 1995 rankings.
This book, the second in the projected three-volume Forces and Forms in Doctoral Education Worldwide series sponsored by the Center for Innovation in Graduate Education (CIRGE) at the University of Washington, invites readers to listen in as nearly thirty distinguished scholars and thought leaders confront urgent questions about doctoral education in a globalizing world: • How are research doctoral education and the research PhD degree evolving in different national contexts? • How do researchers in the early stage of their careers assess the value of doctoral education? • What are the challenges of using international demographic data from existing PhD programs to analyze trends in doctoral education? • What can happen when regional issues intersect with the need to evaluate doctoral education and ensure its quality? • Which quality-assurance model has been gaining favor in PhD education, and what challenges does it pose? • What accounts for conflict between national interests and international collaboration in doctoral education? • Is there empirical evidence of globalization’s impact on doctoral education and the labor market for PhD graduates? This follow-up to Toward a Global PhD? (University of Washington Press, 2008), the first volume in the series, includes case studies illustrating global trends in the structure, function, and quality frameworks of doctoral education, and it develops a conceptual framework linking globalization to trends in doctoral education while showing the particular history that has led to the convergence of a number of practices in one or more countries.
What percentage of graduate students entering PhD programs in the arts and sciences at leading universities actually complete their studies? How do completion rates vary by field of study, scale of graduate program, and type of financial support provided to students? Has the increasing reliance on Teaching Assistantships affected completion rates and time-to-degree? How successful have national fellowship programs been in encouraging students to finish their studies in reasonably short periods of time? What have been the effects of curricular developments and shifts in the state of the job market? How has the overall "system" of graduate education been affected by the expansion of the 1960s and the subsequent contraction in enrollments and degrees conferred? Is there "excess capacity" in the system at the present time? This major study seeks to answer fundamental questions of this kind. It is based on an exhaustive analysis of an unparalleled data set consisting of the experiences in graduate school of more than 35,000 students who entered programs in English, history, political science, economics, mathematics, and physics at ten leading universities between 1962 and 1986. In addition, new information has been obtained on the graduate student careers of more than 13,000 winners of prestigious national fellowships such as the Woodrow Wilson and the Danforth. It is the combination of these original data sets with other sources of national data that permits fresh insights into the processes and outcomes of graduate education. The authors conclude that opportunities to achieve significant improvements in the organization and functioning of graduate programs exist--especially in the humanities and related social sciences--and the final part of the book contains their policy recommendations. This will be the standard reference on graduate education for years to come, and it should be read and studied by everyone concerned with the future of graduate education in the United States. Originally published in 1992. The Princeton Legacy Library uses the latest print-on-demand technology to again make available previously out-of-print books from the distinguished backlist of Princeton University Press. These editions preserve the original texts of these important books while presenting them in durable paperback and hardcover editions. The goal of the Princeton Legacy Library is to vastly increase access to the rich scholarly heritage found in the thousands of books published by Princeton University Press since its founding in 1905.
U.S. research-doctorate programs in the social and behavioral sciences were assessed by a committee of the Conference Board of Associated Research Councils. Attention was focused on 639 research-doctorate programs in seven disciplines in the social and behavioral sciences: anthropology, economics, geography, history, political sciences, psychology, and sociology. The effectiveness of these programs in preparing students for research careers was assessed. Indices that might be relevant to program quality were examined, and information was provided to evaluators on the names of faculty members involved with each program to be rated and the number of research doctorates awarded in the last 5 years. After describing the background to the study and the research methodology, survey findings are presented for each discipline. In addition to extensive statistical findings and analyses, the following appendices are presented: the Survey of Earned Doctorates, the instrument used in the reputational survey, the ARL Library Index, data on faculty research support and research and development expenditures, data on publication records, and lists of planning committee members and participants of the Conference on the Assessment of Quality of Graduate Education Programs. (SW)
The definitive career guide for grad students, adjuncts, post-docs and anyone else eager to get tenure or turn their Ph.D. into their ideal job Each year tens of thousands of students will, after years of hard work and enormous amounts of money, earn their Ph.D. And each year only a small percentage of them will land a job that justifies and rewards their investment. For every comfortably tenured professor or well-paid former academic, there are countless underpaid and overworked adjuncts, and many more who simply give up in frustration. Those who do make it share an important asset that separates them from the pack: they have a plan. They understand exactly what they need to do to set themselves up for success. They know what really moves the needle in academic job searches, how to avoid the all-too-common mistakes that sink so many of their peers, and how to decide when to point their Ph.D. toward other, non-academic options. Karen Kelsky has made it her mission to help readers join the select few who get the most out of their Ph.D. As a former tenured professor and department head who oversaw numerous academic job searches, she knows from experience exactly what gets an academic applicant a job. And as the creator of the popular and widely respected advice site The Professor is In, she has helped countless Ph.D.’s turn themselves into stronger applicants and land their dream careers. Now, for the first time ever, Karen has poured all her best advice into a single handy guide that addresses the most important issues facing any Ph.D., including: -When, where, and what to publish -Writing a foolproof grant application -Cultivating references and crafting the perfect CV -Acing the job talk and campus interview -Avoiding the adjunct trap -Making the leap to nonacademic work, when the time is right The Professor Is In addresses all of these issues, and many more.
The quality of doctoral-level chemistry (N=145), computer science (N=58), geoscience (N=91), mathematics (N=115), physics (N=123), and statistics/biostatistics (N=64) programs at United States universities was assessed, using 16 measures. These measures focused on variables related to: program size; characteristics of graduates; reputational factors (scholarly quality of faculty, effectiveness of programs in educating research scholars/scientists, improvement in program quality during the last 5 years); university library size; research support; and publication records. Chapter I discusses prior attempts to assess quality in graduate education, development of the study plans, and the selection of disciplines and programs to be evaluated. Chapter II discusses the methodology used, focusing on each of the assessment measures. Chapters III to VIII present, respectively, findings from the analyses of the chemistry, computer science, geoscience, mathematics, physics, and statistics/biostatistics programs. Chapter IX includes a summary of results, correlations among measures, several additional analyses, and suggestions for future studies. Among the findings reported are those indicating that mathematics programs had, on the average, the largest number of faculty (N=33) in December 1980 followed closely by physics (N=28) and chemistry (N=23), and that 80 percent of computer science students had job commitments by graduation. (Survey instruments and supporting documentation are included in appendices.) (JN)
In this important, entertaining book, one of the world's most celebrated psychologists, Martin Seligman, asserts that happiness can be learned and cultivated, and that everyone has the power to inject real joy into their lives. In Authentic Happiness, he describes the 24 strengths and virtues unique to the human psyche. Each of us, it seems, has at least five of these attributes, and can build on them to identify and develop to our maximum potential. By incorporating these strengths - which include kindness, originality, humour, optimism, curiosity, enthusiasm and generosity -- into our everyday lives, he tells us, we can reach new levels of optimism, happiness and productivity. Authentic Happiness provides a variety of tests and unique assessment tools to enable readers to discover and deploy those strengths at work, in love and in raising children. By accessing the very best in ourselves, we can improve the world around us and achieve new and lasting levels of authentic contentment and joy.
"Spurious Correlations ... is the most fun you'll ever have with graphs." -- Bustle Military intelligence analyst and Harvard Law student Tyler Vigen illustrates the golden rule that "correlation does not equal causation" through hilarious graphs inspired by his viral website. Is there a correlation between Nic Cage films and swimming pool accidents? What about beef consumption and people getting struck by lightning? Absolutely not. But that hasn't stopped millions of people from going to tylervigen.com and asking, "Wait, what?" Vigen has designed software that scours enormous data sets to find unlikely statistical correlations. He began pulling the funniest ones for his website and has since gained millions of views, hundreds of thousands of likes, and tons of media coverage. Subversive and clever, Spurious Correlations is geek humor at its finest, nailing our obsession with data and conspiracy theory.
The quality of doctoral-level chemistry (N=145), computer science (N=58), geoscience (N=91), mathematics (N=115), physics (N=123), and statistics/biostatistics (N=64) programs at United States universities was assessed, using 16 measures. These measures focused on variables related to: program size; characteristics of graduates; reputational factors (scholarly quality of faculty, effectiveness of programs in educating research scholars/scientists, improvement in program quality during the last 5 years); university library size; research support; and publication records. Chapter I discusses prior attempts to assess quality in graduate education, development of the study plans, and the selection of disciplines and programs to be evaluated. Chapter II discusses the methodology used, focusing on each of the assessment measures. Chapters III to VIII present, respectively, findings from the analyses of the chemistry, computer science, geoscience, mathematics, physics, and statistics/biostatistics programs. Chapter IX includes a summary of results, correlations among measures, several additional analyses, and suggestions for future studies. Among the findings reported are those indicating that mathematics programs had, on the average, the largest number of faculty (N=33) in December 1980 followed closely by physics (N=28) and chemistry (N=23), and that 80 percent of computer science students had job commitments by graduation. (Survey instruments and supporting documentation are included in appendices.) (JN)