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Undergraduate Research Experiences for STEM Students
Undergraduate research has a rich history, and many practicing researchers point to undergraduate research experiences (UREs) as crucial to their own career success. There are many ongoing efforts to improve undergraduate science, technology, engineering, and mathematics (STEM) education that focus on increasing the active engagement of students and decreasing traditional lecture-based teaching, and UREs have been proposed as a solution to these efforts and may be a key strategy for broadening participation in STEM. In light of the proposals questions have been asked about what is known about student participation in UREs, best practices in UREs design, and evidence of beneficial outcomes fr...
International Perspectives on Undergraduate Research
This edited volume explores how undergraduate research and research-based teaching is being implemented in countries around the world. Leading educators come together to discuss commonly accepted definitions of undergraduate research, country-specific models and partnerships for student research, university policies and practices to support faculty and staff who engage students in research, and available assessment data that supports the effectiveness of undergraduate research as a means to increase student engagement and academic achievement. As undergraduate research has spread around the world, professors, administrators, and policymakers benefit by learning about other approaches and models of undergraduate research.
The Cambridge Handbook of Undergraduate Research
Undergraduate Research (UR) can be defined as an investigation into a specific topic within a discipline by an undergraduate student that makes an original contribution to the field. It has become a major consideration among research universities around the world, in order to advance both academic teaching and research productivity. Edited by an international team of world authorities in UR, this Handbook is the first truly comprehensive and systematic account of undergraduate research, which brings together different international approaches, with attention to both theory and practice. It is split into sections covering different countries, disciplines, and methodologies. It also provides an overview of current research and theoretical perspectives on undergraduate research as well as future developmental prospects of UR. Written in an engaging style, yet wide-ranging in its scope, it is essential reading for anyone wishing to broaden their understanding of how undergraduate research is implemented worldwide.
Promising Practices in Undergraduate Science, Technology, Engineering, and Mathematics Education
Numerous teaching, learning, assessment, and institutional innovations in undergraduate science, technology, engineering, and mathematics (STEM) education have emerged in the past decade. Because virtually all of these innovations have been developed independently of one another, their goals and purposes vary widely. Some focus on making science accessible and meaningful to the vast majority of students who will not pursue STEM majors or careers; others aim to increase the diversity of students who enroll and succeed in STEM courses and programs; still other efforts focus on reforming the overall curriculum in specific disciplines. In addition to this variation in focus, these innovations ha...
Bridging Research and Library Practice
Bridging the gap between research and practice communities is more pertinent than ever because of the need for evidence in developing and evaluating library services and programs. The gap between research and library practice has been discussed in the library and information science (LIS) field for almost two decades. The issues range from limited transfer of ideas from research into practice to a lack of education in research methods for library practitioners. This book introduces new voices from international research and practice communities into the discussion and contributes to the debate about the research-practice divide. Education and continuing training in research methods from inte...
Indicators for Monitoring Undergraduate STEM Education
Science, technology, engineering and mathematics (STEM) professionals generate a stream of scientific discoveries and technological innovations that fuel job creation and national economic growth. Ensuring a robust supply of these professionals is critical for sustaining growth and creating jobs growth at a time of intense global competition. Undergraduate STEM education prepares the STEM professionals of today and those of tomorrow, while also helping all students develop knowledge and skills they can draw on in a variety of occupations and as individual citizens. However, many capable students intending to major in STEM later switch to another field or drop out of higher education altogeth...
Improving Undergraduate Instruction in Science, Technology, Engineering, and Mathematics
Participants in this workshop were asked to explore three related questions: (1) how to create measures of undergraduate learning in STEM courses; (2) how such measures might be organized into a framework of criteria and benchmarks to assess instruction; and (3) how such a framework might be used at the institutional level to assess STEM courses and curricula to promote ongoing improvements. The following issues were highlighted: Effective science instruction identifies explicit, measurable learning objectives. Effective teaching assists students in reconciling their incomplete or erroneous preconceptions with new knowledge. Instruction that is limited to passive delivery of information requ...
Integrating Discovery-Based Research into the Undergraduate Curriculum
Students who participate in scientific research as undergraduates report gaining many benefits from the experience. However, undergraduate research done independently under a faculty member's guidance or as part of an internship, regardless of its individual benefits, is inherently limited in its overall impact. Faculty members and sponsoring companies have limited time and funding to support undergraduate researchers, and most institutions have available (or have allocated) only enough human and financial resources to involve a small fraction of their undergraduates in such experiences. Many more students can be involved as undergraduate researchers if they do scientific research either col...
Why We Teach Science
Few people question the importance of science education in American schooling. The public readily accepts that it is the key to economic growth through innovation, develops the ability to reason more effectively, and enables us to solve the everyday problems we encounter through knowing how the world works. Good science teaching results in all these benefits and more — or so we think. But what if all this is simply wrong? What if the benefits we assume science education produces turn out to be an illusion, nothing more than wishful thinking? In Why We Teach Science (and Why We Should), former high school teacher and historian of science education John L. Rudolph examines the reasons we've ...
