Multilevel phenomena and the implications for method: An example of knowledge transfer in sports

Multilevel theories integrate individual-level processes with those occurring at the level of the firm and above to generate richer and more complete explanations of IB phenomena than the traditional specification of IB relationships as single-level and parsimonious allows. Case study methods permit the timely collection of multiple sources of data, in context, from multiple individuals and multiple organizational units. Further, because the definitions for each level emerge from case data rather than being imposed a priori, case analysis promotes an understanding of deeper structures and cross-level processes. This paper considers the example of sport as an internationalized service to illustrate how the case method might be used to illuminate the multilevel phenomena of knowledge.

Middle Schooling Teacher Education: Where are we at in Australia?

Commonwealth and State bodies have made substantial investments into curriculum initiatives, research, and reform with a focus on middle schooling. To a considerable degree, the success of middle schooling is dependent upon teachers' preparedness to enact and embrace initiatives and research. Research has shown that the success of school improvement and reform initiatives hinges, in large part, on the qualifications and effectiveness of teachers (Killion, 1999; Garet, Porter, Desimone, Birman, & Yoon, 2001). While some research and professional development in Australia has targeted the school site, pre-service teacher education is clearly a vital yet under-researched area due to its relatively recent introduction. Recent research that includes middle years teacher education (MYTE) (Killion, 1999; Mertens & Flowers, 2004; NCES 2001; NMSA, 2003) and reports from a system that has been working with middle schooling for some time indicates that teachers need specific teacher preparation before they enter the middle level classroom and continuous professional development as they pursue their careers. In Turning Points 2000, one of the seven recommendations is to staff middle grades schools with teachers who are expert at teaching young people in their middle years, and engage teachers in ongoing, targeted professional development opportunities (Jackson & Davis, 2000). Given there are now two dedicated programs towards MYTE (Edith Cowan University and The University of Queensland), other institutions containing elements of MYTE, and others considering MYTE this symposium will summarise current initiatives and research in MYTE, critique the state and place of MYTE in Australia and begin discussions towards teacher education programs that improve the efficacy of middle schooling.

English language education in policy studies

Content-based instruction (CBI) is increasingly important in curriculum development for second-language acquisition (SLA), as language and non-language departments in universities are finding the integration of core-content as part of the second language curriculum to be beneficial. With this in mind, this paper describes the English program at Nanzan University’s Faculty of Policy Studies and examines the synergy presently being developed between core-content and English language instruction there. Specifically, this paper seeks to shed light on how instructors can reflect on the meaning of language instruction at higher education through an illustration of our activities.

The programming language python in earth system simulations

-scale vary from a planetary scale and million years for convection problems to 100km and 10 years for fault systems simulations. Various techniques are in use to deal with the time dependency (e.g. Crank-Nicholson), with the non-linearity (e.g. Newton-Raphson) and weakly coupled equations (e.g. non-linear Gauss-Seidel). Besides these high-level solution algorithms discretization methods (e.g. finite element method (FEM), boundary element method (BEM)) are used to deal with spatial derivatives. Typically, large-scale, three dimensional meshes are required to resolve geometrical complexity (e.g. in the case of fault systems) or features in the solution (e.g. in mantel convection simulations). The modelling environment escript allows the rapid implementation of new physics as required for the development of simulation codes in earth sciences. Its main object is to provide a programming language, where the user can define new models and rapidly develop high-level solution algorithms. The current implementation is linked with the finite element package finley as a PDE solver. However, the design is open and other discretization technologies such as finite differences and boundary element methods could be included. escript is implemented as an extension of the interactive programming environment python (see www.python.org). Key concepts introduced are Data objects, which are holding values on nodes or elements of the finite element mesh, and linearPDE objects, which are defining linear partial differential equations to be solved by the underlying discretization technology. In this paper we will show the basic concepts of escript and will show how escript is used to implement a simulation code for interacting fault systems. We will show some results of large-scale, parallel simulations on an SGI Altix system. Acknowledgements: Project work is supported by Australian Commonwealth Government through the Australian Computational Earth Systems Simulator Major National Research Facility, Queensland State Government Smart State Research Facility Fund, The University of Queensland and SGI.