13,598 research outputs found
The Effect of Student Learning Styles on the Learning Gains Achieved When Interactive Simulations Are Coupled with Real-Time Formative Assessment via Pen-Enabled Mobile Technology
This paper describes results from a project in an undergraduate engineering
physics course that coupled classroom use of interactive computer simulations
with the collection of real-time formative assessment using pen-enabled mobile
technology. Interactive simulations (free or textbook-based) are widely used
across the undergraduate science and engineering curriculia to help actively
engaged students increase their understanding of abstract concepts or phenomena
which are not directly or easily observable. However, there are indications in
the literature that we do not yet know the pedagogical best practices
associated with their use to maximize learning. This project couples student
use of interactive simulations with the gathering of real-time formative
assessment via pen-enabled mobile technology (in this case, Tablet PCs). The
research question addressed in this paper is: are learning gains achieved with
this coupled model greater for certain types of learners in undergraduate STEM
classrooms? To answer this, we correlate learning gains with various learning
styles, as identified using the Index of Learning Styles (ILS) developed by
Felder and Soloman. These insights will be useful for others who use
interactive computer simulations in their instruction and other adopters of
this pedagogical model; the insights may have broader implications about
modification of instruction to address various learning styles.Comment: 6 pages 2 tables and 1 figur
Homogeneous geodesics of non-unimodular Lorentzian Lie groups and naturally reductive Lorentzian spaces in dimension three
We determine, for all three-dimensional non-unimodular Lie groups equipped
with a Lorentzian metric, the set of homogeneous geodesics through a point.
Together with the results of [C] and [CM2], this leads to the full
classification of three-dimensional Lorentzian g.o. spaces and naturally
reductive spaces
Investigating the Feasibility of Integrating Pavement Friction and Texture Depth Data in Modeling for INDOT PMS
Under INDOT’s current friction testing program, the friction is measured annually on interstates but only once every three years on non-interstate roadways. The state’s Pavement Management System, however, would require current data if friction were to be included in the PMS. During routine pavement condition monitoring for the PMS, texture data is collected annually. This study explored the feasibility of using this pavement texture data to estimate the friction during those years when friction is not measured directly. After multi0ple approaches and a wide variety of ways of examining the currently available data and texture measuring technologies, it was determined that it is not currently feasible to use the texture data as a surrogate for friction testing. This is likely because the lasers used at this time are not capable of capturing the small-scale pavement microtexture. This situation may change, however, with advances in laser or photo interpretation technologies and improved access to materials data throughout the INDOT pavement network
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