How Research,Teaching, and Leadership Roles are Recommended to Male and Female Engineering Faculty Differently

Research in Higher Education - Across disciplines, male faculty spend more time on research than female faculty. Yet, women tend to teach and mentor students more hours than men (Misra et al. in...     

Floating on the fringe: College of education students’ discourse about diversity

Abstract

This phenomenological research study focused on how education students perceived diversity in their academic lives, as well as the language they used when they talked about diversity. Focus groups with 36 undergraduate and graduate students in a college of education were conducted to explore these areas. Three themes were identified through a two-phase analytical approach. These were: (a) limited or inconsistent exposure to diversity at the college; (b) instances of othering and exclusion that took place in various spaces; and (c) divergent ways of talking about the diversity climate. The article concludes with a renewed call for increased attention to diversity in colleges of education.     

Assessing Students’ Deep Conceptual Understanding in Physical Sciences: an Example on Sinking and Floating

This paper presents a transformative modeling framework that guides the development of assessment to measure students’ deep understanding in physical sciences. The framework emphasizes 3 types of connections that students need to make when learning physical sciences: (1) linking physical states, processes, and explanatory models, (2) integrating multiple explanatory models, and (3) connecting scientific models to concrete experiences. We carried out a 2-phase exploratory study that helped further develop and refine the framework. In the first phase, we developed 3 items on sinking and floating and pilot tested them with 18 undergraduate students. Analysis of student responses revealed various student misconceptions and the different connections students made among science ideas. Based on the findings, we revised the assessment, modified the instruction, and collected data from another cohort of 26 students. The second cohort of students showed significant improvement of understanding of sinking and floating after instruction. Implications and limitations of how our assessment framework can be used to improve students’ conceptual understanding in science are discussed.     

Stichwort: Qualität im Bildungssystem

Ohne Zusammenfassung     

CONCEPT MAPPING OF HIGH AND AVERAGE ACHIEVING STUDENTS AND EXPERTS

Concept mapping has been used effectively to represent understanding of afield of knowledge. The maps are highly individualistic and idiosyncratic. Three high‐performing junior college students, three average performing junior college students and two university physics teachers constructed maps using 22 electricity concepts. In this study several previously used and newly developed measures were applied to the maps in an attempt to gain further insight into differences in the quality of understanding of the three groups. It was found that the concept maps constructed by high performing students differed from those of average performing students and closely resembled the concept maps of physics experts, especially when the quality of the links between concepts was taken into account.     

Students ’ perceptions of science classes in the Philippines

This study used a modified version of the Perception of Science Classes Survey (Kardash & Wallace, 2001) to survey 7,885 grade school and high school students in different provinces in the Philippines regarding their perceptions of their science classes. Factor analysis revealed five dimensions of the students ’ perceptions that relate to different aspects of the teacher ’s pedagogy and the learning environment created by the teachers: (a) Learner-Centered Pedagogy, (b) Science Inquiry Activities, (c) Positive Affect and Attitudes, (d) Grades as Feedback, and (e) Support for Self-Learning and Effort. Factor scores were compared across grade levels and genders. The results indicate a decrease in science inquiry activities and the use of grades as feedback in the higher grades, but an increase in support for self-learning and effort, and also positive affects and attitudes. These trends were discussed in relation to possible problems related to teacher practices that may contribute to low student achievement levels in science. This research was part of a research project commissioned by the Japan International Cooperation Agency-Philippines.