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C. B. B. C. B. B. A. A. C. A. A. A. A. A. A. A. B. B. B. B. C. A. A. B. B. B. B. B. B. B. C. A. A. B. B. C. C. C. B. B. Weak Adsorption on Complex Surfaces. Renee D. Diehl, Penn State, DMR 0505160.

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  1. C B B C B B A A C A A A A A A A B B B B C A A B B B B B B B C A A B B C C C B B Weak Adsorption on Complex Surfaces Renee D. Diehl, Penn State, DMR 0505160 We use experiments, theory and simulation to explore the fundamental properties of gases adsorbed on complex surfaces. This slide describes the adsorption of Xe on a monolayer of C60 on Ag(111). Side view Layer-by-layer growth: click once for animation Low-energy electron diffraction pattern from C60 on Ag(111) Top view Structure of C60 on Ag(111) derived from the LEED intensity data Adsorption process for Xe on the C60 monolayer on Ag(111) determined by LEED and Monte Carlo simulations

  2. Weak Adsorption on Complex Surfaces Renee. D. Diehl , Penn State, DMR 0505160 Members of this project are active in the design and implementation of a new physics course for pre-service elementary school teachers. The course is called "Sound and Light" and utilizes an experience-intensive inquiry-based approach. It was developed in collaboration with Annmarie Ward and Carla Zembal-Saul from the College of Education at Penn State University.

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