Examining the role of student-centered versus teacher-centered pedagogical approaches to self-directed learning through teaching

While research has shown that students benefit from student-centered pedagogies, few studies have considered the benefits of this pedagogical approach for educators as they learn through teaching. In response to this need, we analyzed interviews, lesson plans, and video observations from five teachers in elementary schools across the United States who varyingly engaged student-centered and teacher-centered pedagogies. Our analyses revealed that the participating teachers developed a wide breadth of teacher knowledge regardless of their pedagogical approach. However, the teachers who employed student-centered teaching reported more pedagogical content knowledge gains for themselves than the teachers who used direct teaching

The Maule (Chile) Earthquake of February 27, 2010: Consequence Assessment and Case Studies

On February 27, 2010 at 03:34 am local time, a powerful earthquake of magnitude 8.8 struck central Chile. The epicenter of the earthquake was approximately 8 km off the central region of the Chilean coast. With an inclined rupture area of more than 80,000 square km that extends onshore, the region of Maule was subjected to a direct hit, with intense shaking of duration of at least 100 seconds, and peak horizontal and vertical ground acceleration of over 0.6 g. The earthquake caused the death of 521 persons, with almost half of the fatalities caused by the consequential tsunami. Over 800,000 individuals were directly affected through death, injury and displacement. More than a third of a million buildings were damaged to varying degrees, including several cases of total collapse of major structures. The transportation system was dealt a crippling blow, with 830 failures registered with the Ministry of Public Works on roads in both the public and private transportation networks. Disruption of commerce as well as the rescue and response effort resulted from the damage to roads, embankments and bridges. On the whole, the performance of engineered structures was reasonable, taking into account the magnitude and proximity of the earthquake. The latter conclusion is supported by the observations from several back-analyses presented in this report. Damage to non-engineered construction is as expected in major earthquakes. Most reinforced concrete bridges behaved well. The role of social networking tools in enabling the affected population to communicate was a most interesting feature in the response to this earthquake. Due to the failure of the power grid, and the congestion of the cellphone network, the population resorted to short message service and web social media. Ham radio networks were activated to fill gaps due to the failure of the radio network in places. The failure in ham radio broadcast in coastal regions might have increased the fatalities because tsunami warning did not reach all hazardous locations. The MAE Center field reconnaissance team members consider that Chilean engineering was proven to be robust and that seismic design provisions and construction practices are of high standard. The extensive damage from this Mw = 8.8 earthquake is expected and within the ???life safety??? performance target of seismic design codes.National Science Foundation EEC-9701785unpublishednot peer reviewe

Polyurethane/hydroxypropyl cellulose electrospun nanofiber mats as potential transdermal drug delivery system: characterization studies and in vitro assays

Donepezil hydrochloride containing polyurethane/hydroxypropyl cellulose (PU/HPC) nanofibers were prepared by the electrospinning for transdermal drug delivery. PU/HPC nanofibers were characterized with SEM, DSC, and Pascal mercury porosimetry. Drug-excipient interaction was studied by ATR-FTIR. In vitro release of PU/HPC nanofiber mat (10:2:1) exhibited Korsmeyer-Peppas release kinetics controlled by the diffusion of drug. In vitro permeation studies across skin resembling synthetic membrane demonstrated the flux of model drug. The in vitro cytotoxicity data obtained via MTT assay indicated that PU/HPC nanofiber mat could be well tolerated by the skin and the components was not irritant for the skin