Gabriela C. Weaver

Bio: Gabriela C. Weaver is an academic researcher from University of Massachusetts Amherst. The author has contributed to research in topics: Science education & Cognitively Guided Instruction. The author has an hindex of 4, co-authored 4 publications receiving 166 citations.

Design, Implementation, and Evaluation of a Flipped Format General Chemistry Course

Abstract: Research has consistently shown that active problem-solving in a collaborative environment supports more effective learning than the traditional lecture approach. In this study, a flipped classroom format was implemented and evaluated in the chemistry majors’ sequence at Purdue University over a period of three years. What was formerly lecture material was presented online outside of class time using videos of PowerPoint lectures with a voice-over. In-class time was devoted to collaborative problem solving based on the Student Centered Active Learning Environment with Upside-Down Pedagogies (SCALE-UP) approach, which has been shown to increase student exam scores and passing rates. The purpose of this proof-of-principle study was to look at quantitative measures of student performance in the flipped versus the traditional lecture approach of this chemistry course. Three years of results using ACS standardized exams showed that students’ ACS general chemistry exam scores in the flipped class were significa...

Insights from a Convocation: Integrating Discovery-Based Research into the Undergraduate Curriculum.

Abstract: The National Academies of Sciences, Engineering, and Medicine organized a convocation in 2015 to explore and elucidate opportunities, barriers, and realities of course-based undergraduate research experiences, known as CUREs, as a potentially integral component of undergraduate science, technology, engineering, and mathematics education. This paper summarizes the convocation and resulting report.

STEM education centers: catalyzing the improvement of undergraduate STEM education.

Abstract: With the remarkable attention being paid to STEM education nationally, with the growing engagement of universities and colleges in STEM education reform, and with the rise of STEM education centers, SECs, assisting universities as they strive to achieve these reforms, this research provides insight into the roles of six SECs. Through a multi-dimensional cross-site comparison, we provide a lens into the ways in which SECs function on their campuses, illuminating possibilities for those seeking to strengthen undergraduate STEM education. SECs play an important networking role on their campuses, where they inform and unify institutional efforts, serving to elevate their visibility and importance both internally and externally. Through their scholarship, SECs contribute to the knowledge base and provide funding, which add resources and incentives for the implementation of evidence-based instructional practices (EBIPs) and STEM education research. SECs augment these efforts with the assessment and evaluation of learning outcomes and curricular innovations. Additionally, SECs act as an internal resource for faculty and instructors providing programs and training to foster the application of EBIPs in STEM courses. Several SECs provide the infrastructure for broader impact activities, and act as an external funding resource. STEM education centers make key contributions to their institutional environments. While the individual roles of these SECs on their campuses are distinctly unique, an in-depth look across six SECs reveals common areas of focus that allow these centers to enhance the undergraduate teaching and learning experience. Our results suggest that the ability of SECs to link STEM education research with teaching and learning initiatives provides a breadth of impact and attention across organizational levels. The analysis describes the ways in which these centers support institutional goals for undergraduate STEM education and relates these to areas of national priority. This research was carried out as part of a broader study, which informs the organizers of NSEC, the network of STEM education centers.

The Indiana Science Initiative: Lessons from a Classroom Observation Study.

Abstract: The Indiana Science Initiative (ISI) is a systemic effort to reform K–8 science education. The program provides teachers with professional development, reform-oriented science modules, and materials support. To examine the impact of the initiative's professional development, a participant observation study was conducted in the program's pilot year. Five teachers in grades 3–6 were observed and interviewed as they implemented the ISI-provided modules. Analysis of the observation data revealed that the teachers incorporated each of the features of inquiry science instruction. However, they did not consistently teach in a way that was aligned with the intent of the ISI. Examination of interview data provided insight into influences on teachers' use of inquiry with the ISI-provided modules. These data revealed that teachers were aware of the intent of the ISI and attempted to align their instruction. However, teachers were influenced by their perceptions of students' behavior and abilities as well as timing and the appropriate level of teacher control needed to facilitate science instruction. The research suggests that professional development activities should prepare teachers to help learners evaluate explanations against alternatives, connect explanations to scientific knowledge, and provide strategies to address teachers' perceptions of students, timing, and teacher control.

The flipped classroom: A review of its advantages and challenges

Abstract: This study presents a large-scale systematic review of the literature on the flipped classroom, with the goals of examining its reported advantages and challenges for both students and instructors, and to note potentially useful areas of future research on the flipped model's in and out-of-class activities. The full range of Social Sciences Citation Indexed journals was surveyed through the Web of Science site, and a total of 71 research articles were selected for the review. The findings reveal that the most frequently reported advantage of the flipped classroom is the improvement of student learning performance. We also found a number of challenges in this model. The majority of these are related to out-of-class activities, such as much reported inadequate student preparation prior to class. Several other challenges and the numerous advantages of the flipped classroom are discussed in detail. We then offer suggestions for future research on flipped model activities.

Impact of the Flipped Classroom on Student Performance and Retention: A Parallel Controlled Study in General Chemistry

Abstract: Despite much recent interest in the flipped classroom, quantitative studies are slowly emerging, particularly in the sciences. We report a year-long parallel controlled study of the flipped classroom in a second-term general chemistry course. The flipped course was piloted in the off-semester course in Fall 2014, and the availability of the flipped section in Spring 2015 was broadly advertised prior to registration. Students self-selected into the control and flipped sections, which were taught in parallel by the same instructor; initial populations were 206 in the control section, 117 in the flipped. As a pretest, we used the ACS first-term general chemistry exam (form 2005), given as the final exam across all sections of the first-term course. Analysis of pretest scores, student percentile rankings in the first-term course, and population demographics indicated very similar populations in the two sections. The course designs required comparable student effort, and five common exams were administered, in...

Improving undergraduate STEM education: The efficacy of discipline-based professional development.

Abstract: We sought to determine whether instructional practices used by undergraduate faculty in the geosciences have shifted from traditional teacher-centered lecture toward student-engaged teaching practices and to evaluate whether the national professional development program On the Cutting Edge (hereinafter Cutting Edge) has been a contributing factor in this change. We surveyed geoscience faculty across the United States in 2004, 2009, and 2012 and asked about teaching practices as well as levels of engagement in education research, scientific research, and professional development related to teaching. We tested these self-reported survey results with direct observations of teaching using the Reformed Teaching Observation Protocol, and we conducted interviews to understand what aspects of Cutting Edge have supported change. Survey data show that teaching strategies involving active learning have become more common, that these practices are concentrated in faculty who invest in learning about teaching, and that faculty investment in learning about teaching has increased. Regression analysis shows that, after controlling for other key influences, faculty who have participated in Cutting Edge programs and who regularly use resources on the Cutting Edge website are statistically more likely to use active learning teaching strategies. Cutting Edge participants also report that learning about teaching, the availability of teaching resources, and interactions with peers have supported changes in their teaching practice. Our data suggest that even one-time participation in a workshop with peers can lead to improved teaching by supporting a combination of affective and cognitive learning outcomes.

Examining the Effectiveness of a Semi-Self-Paced Flipped Learning Format in a College General Chemistry Sequence.

Abstract: Flipped learning has come to the forefront in education. It maximizes learning by moving content delivery online, where learning can be self-paced, allowing for class time to focus on student-centered active learning. This five-year cross-sectional study assessed student performance in a college general chemistry for majors sequence taught by a single instructor, comparing the flipped learning format to a more traditional lecture format. Students’ conceptual knowledge was captured through the use of American Chemical Society (ACS) standardized exam scores and analyzed using one-way ANCOVA. Student motivation and learning perceptions were assessed using the Chemistry Motivation Questionnaire (CMQ-II) and an in-house Blended (Flipped) Learning Survey. Statistical analysis indicated that students instructed through the flipped learning platform performed better than those taught using traditional pedagogy. Student perceptions regarding flipped learning were mostly positive and reflected motivation to succeed...

Evaluation of a Flipped, Large-Enrollment Organic Chemistry Course on Student Attitude and Achievement

Abstract: Organic Chemistry is recognized as a course that presents many difficulties and conceptual challenges for students. To combat the high failure rates and poor student attitudes associated with this challenging course, we implemented a “flipped” model for the first-semester, large-enrollment, Organic Chemistry course. In this flipped course, lectures were replaced by short videos, which were delivered via a course management system, and class time was reserved for problem solving and other active learning activities. We assessed the impact of the flipped course on course grades and failure rate compared to historical course data. The results showed that there was a statistically significant improvement in A and B grades and a decrease in failure/withdrawal rates for the flipped course. We also assessed students’ attitudes toward the course using a valid and reliable instrument, the Attitude toward the Subject of Chemistry Inventory Version 2 (ASCIv2). The results showed a statistically significant increase ...