James P. Barufaldi

The Effective Research-Based Characteristics of Professional Development of the National Science Foundation's GK-12 Program

This study investigates the effective research-based characteristics of professional development (ERBCPD) of the National Science Foundation’s GK-12 Program—a program which partners institutions of higher education with local school districts and places science, technology, engineering, and mathematics graduates in the K-12 classroom with teachers. Final evaluations of 26 GK-12 sites were analyzed with a priori and emergent content analyses, which included rigorous inter- and intra-reliability testing. The results of the a priori analysis demonstrated that the GK-12 program incorporates all ERBCPD, but to drastically varying degrees (76–5%). The a priori characteristics that appeared most often were “Treats Fellows as professionals,” and “Professional development is on-going.” The two emergent characteristics included “Improves communication skills” and “Has real world application.”

Earth science student attitudes toward a constructivist teaching approach in Taiwan

The notion of constructivism is serving as the underpinning for many of the current reforms in science education and has been one of the most influential themes in science education for the past 20 years. This study was designed to investigate the attitudes of earth-science students toward a constructivist teaching approach. Eighty-six ninth-grade students enrolled in two earth-science classes were chosen to participate in the study. A five point Likert-style questionnaire with ten items was administered to the participants to explore their opinions of this teaching method during a six-week intervention. Results of the affective-domain survey strongly suggest that the students held no particular attitudes toward this learning style; yet, they all expressed their understanding of the advantages of the constructivist teaching method in terms of helping them develop science-process skills, improving their thinking skills, and providing opportunities to apply their own ideas. In addition, we also found that s...

A scientometric analysis of the effectiveness of Taiwan's educational research projects

The seeking of evidence for revealing the research performance of Education in Taiwan, in response to the stimulus by the national research projects, is presented and interpreted. More than 70,000 publication records over the years 1990–2011 from Web of Science were downloaded and analyzed. The overview analysis by data aggregation and country ranking shows that Taiwan has significantly improved its publication productivity and citation impact over the last decade. The drill-down analysis based on journal bibliographic coupling, information visualization, and diversity and trend indexes, reveals that e-Learning and Science Education are two fast growing subfields that attract global interests and that Taiwan is among the top-ranked countries in these two fields in terms of research productivity. Implications of the analysis are discussed with an emphasis on the subfield characteristics from which more insightful interpretations can be obtained, such as the regional or cultural characteristics that may affect the performance ranking.

Aliens are us. An innovative course in astrobiology

We live in a scientific world; paradoxically, the scientific literacy of the population is minimal at best. Science is an ongoing process, a human endeavour; paradoxically, students tend to believe that science is a finished enterprise. Many non-science major students are not motivated in science classes; paradoxically, there is a public fascination with the possibility of life in the Universe, which is nowadays a scientific endeavour. An astrobiology course was developed at the Center for Science and Mathematics Education at The University of Texas at Austin to address these paradoxes and includes the following objectives: (a) to improve scientific literacy; (b) to demonstrate that science is a work in progress; (c) to enhance the inherent interdisciplinary aspect of science; (d) to demonstrate that science is embedded in society and relates with several social sciences; (e) to improve the content knowledge about the nature of science; (f) to illustrate how engaging learning science can be; and (g) to draw from the intrinsic motivation already incorporated in the general population. The course has been offered, taught and revised for the past three years. The informal course student feedback has been very positive and encouraging. The purpose of this paper is to provide a general overview of the course. In addition, the courses background, content, themes and mode of delivery are outlined, discussed and analysed in this paper. This paper subscribes to an educational philosophy that focuses on the multidisciplinary nature of science and includes critical thinking-based teaching strategies using the dynamic discipline of astrobiology.

Design and Assessment of an Interactive Digital Tutorial for Undergraduate-level Sandstone Petrology

A digital interactive tutorial has been created to provide undergraduates a ‘virtual microscope’ resource for learning sandstone petrology. The tutorial does not replace hands-on laboratory experiences with the petrographic microscope, but lends efficiency and breadth to the learning process. Students are able to obtain practice with identification of a wide array of sandstone components outside of the laboratory and independently of the instructor. The efficacy of traditional petrography instruction versus instruction supplemented by the tutorial was assessed in two semesters of GEO 416M, “Sedimentary Rocks” at the University of Texas at Austin. Students in the first semester were not provided with the tutorial, providing a baseline or control for comparison. In the second semester, the digital tutorial was provided to all students on CD and assigned as a required resource in laboratory exercises. Investigation of student attitudes towards the tutorial demonstrates a high level of approval, and subject matter attainment appears to improve with tutorial use. Individualized, one-on-one instruction should remain a key element in effective teaching of petrography. Digital materials have a clear benefit in terms of enhancing the quality, availability, and breadth of the demonstration materials that can be provided to students. Based on this preliminary assessment, there are benefits in student learning as well.