Thursday, 9 July 2009

SpringerImages - Schematic of the Learning Research Cycle (LRC). A sequence of activities designed to enhance participants’ understanding of the role of information technology (IT) in doing, teaching, and learning science. Activities build on intense experiences in authentic scientific research environments with scientists in their laboratories, which occur in two 3-week periods during two summers. Participants engage in scientific research experiences using IT to seek answers to scientific questions (Ia). Participants concurrently adapt their authentic research experiences to design similar IT-based research experiences for their students, with the assistance of science educators (II). At the end of the first summer, participants leave with an Instructional Framework (IF) to integrate into their classroom instruction during the first school year (III). Reports of the results of their implementation efforts are required for participants to return for a second summer. In June of the second summer, training in mentoring and fundamentals of educational research occurs for graduate students who are chosen to work as mentors for participants during the professional development activities for the second summer (IV). In July, participants continue their work with scientists (Ib) and work with educational researchers to design classroom-based research blueprints (RB) to examine the effects of the IF on students learning (V). Participants implement their research blueprints in their classrooms during the second school year on a voluntary basis (VI) and have the option of reporting the results of their 2nd years’ implementations during a conference held at the ITS Center at the beginning of the third summer (VII). Critical to the entire LRC are multiple and continuous opportunities for discourse and feedback, provided face-to-face during the summer and electronically via a community portal throughout the entire LRC (VIII)


Schematic of the Learning Research Cycle (LRC).A sequence of activities designed to enhance participants’ understanding of the role of information technology (IT) in doing, teaching, and learning science. Activities build on intense experiences in authentic scientific research environments with scientists in their laboratories, which occur in two 3-week periods during two summers. Participants engage in scientific research experiences using IT to seek answers to scientific questions (Ia). Participants concurrently adapt their authentic research experiences to design similar IT-based research experiences for their students, with the assistance of science educators (II). At the end of the first summer, participants leave with an Instructional Framework (IF) to integrate into their classroom instruction during the first school year (III). Reports of the results of their implementation efforts are required for participants to return for a second summer. In June of the second summer, training in mentoring and fundamentals of educational research occurs for graduate students who are chosen to work as mentors for participants during the professional development activities for the second summer (IV). In July, participants continue their work with scientists (Ib) and work with educational researchers to design classroom-based research blueprints (RB) to examine the effects of the IF on students learning (V). Participants implement their research blueprints in their classrooms during the second school year on a voluntary basis (VI) and have the option of reporting the results of their 2nd years’ implementations during a conference held at the ITS Center at the beginning of the third summer (VII). Critical to the entire LRC are multiple and continuous opportunities for discourse and feedback, provided face-to-face during the summer and electronically via a community portal throughout the entire LRC (VIII)
(Quelle: SpringerImages)

Is such a model also possible in Germany?

Springer offers now an image database: SpringerImages is a growing collection of scientific images that spans the scientific, technical and medical fields, including high-quality clinical images from images.MD. The continually updated collection – currently over 1.5 million images – gathers photos, graphs, histograms, figures, and tables, and is available to libraries and their patrons via a searchable online database. The SpringerImages interface enables users to search faster, more broadly and more accurately, through captions, keywords, context and more, even jumping from the image to the source article. Users can create personalized image “sets,” and can easily export images for use in their own presentations or lectures.

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