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Full-Text Articles in Science and Mathematics Education
Strengthening Undergraduates’ Appreciation Of Engineering Ethics Through A Simulated Stakeholder Meeting On Offshore Wind Energy Development, Maija A. Benitz
Strengthening Undergraduates’ Appreciation Of Engineering Ethics Through A Simulated Stakeholder Meeting On Offshore Wind Energy Development, Maija A. Benitz
Engineering, Computing & Construction Management Faculty Publications
The need for deepening students’ appreciation for the importance of engineering ethics remains ever present. However, accomplishing this learning outcome can be challenging, as the principles often come across as abstract and distant to many undergraduates. To combat these challenges, a group-based assignment and corresponding in-class role-playing activity were developed for an upper-level ocean engineering elective course, based on a local case study about offshore wind energy development. The new pedagogical approach aims to present engineering ethics in a more tangible and relatable way by requiring students to role-play a real-world scenario from their own university’s backyard. Students worked on …
Elevating The Voices For All Learners Through Shared Stories Of Science Learning, Lauren Madden, Stuart Z. Carroll, Amy K. Schuler
Elevating The Voices For All Learners Through Shared Stories Of Science Learning, Lauren Madden, Stuart Z. Carroll, Amy K. Schuler
Journal of Science Education for Students with Disabilities
This study examines the science learning experiences across the lifespan of two groups of college students: adults with intellectual and/or developmental disabilities in a post-secondary inclusive program, and adults in a preservice secondary education teacher candidate program. Data, in the form of personal narrative science stories were collected using a paired-interview approach in which students from each group interviewed one another about their science learning across their lifespans, and recorded responses using an online form. Across the stories, several clear themes emerged. Similarities and differences were found across and within the groups and are shared in a narrative format. Trends …
Real Data Is Messy... And Manageable, Beverly Wood, Carl Clark
Real Data Is Messy... And Manageable, Beverly Wood, Carl Clark
Publications
Using real data in an introductory statistics course is a delicate balance between reality and manageability. The internet is awash with data that is useful for students to answer questions of interest to them but it is not always formatted as neatly as textbook data. The ASA's recently endorsed GAISE College Report 2016 points to the plausibility of considering multivariable thinking even if only at a rudimentary level. With both messy and multivariable data in mind, we present some activities/projects and sources for data to give introductory students the opportunity to engage with real data.
Integrating Lecture And Laboratory In Health Sciences Courses Improves Student Satisfaction And Performance, Kevin E. Finn, Kathleen Fitzpatrick, Zi Yan
Integrating Lecture And Laboratory In Health Sciences Courses Improves Student Satisfaction And Performance, Kevin E. Finn, Kathleen Fitzpatrick, Zi Yan
Health Sciences Faculty Publications
Students often struggle in introductory health sciences courses; some students have difficulty in upper level classes. To address this, we converted three lecture/lab courses, traditional firstyear Anatomy and Physiology (A&P I), upper level Biomechanics, and upper level Microbiology to an integrated studio model. We used the Student Assessment of Learning Gains perceptual survey to assess student and instructor reactions to the change and analyzed rates of unsatisfactory grades and quiz performance. Reaction (220 students, 15 instructors) to the new model was highly positive, and performance improvement was seen. Student perceptions were consistent across courses and agreed closely with instructor perceptions. …
Gaiseing Into The New Guidelines, Robert Carver, Megan Mocko, Jeffrey Witmer, Beverly Wood
Gaiseing Into The New Guidelines, Robert Carver, Megan Mocko, Jeffrey Witmer, Beverly Wood
Publications
The first GAISE College Report came out in 2005. Over the past ten years our discipline has changed in many ways, including but not limited to what type of data is easily available, the technology that we use, as well as how we teach students. In this presentation we will briefly start with how the new GAISE 2016 guidelines and goals have changed, including the two new emphases of statistical thinking: giving students experience with multivariable thinking and with the investigative process. So how do you start to implement these new ideas? In this presentation, we will demonstrate an activity …
Multivariate Thinking In An Intro Stats Course – Is It Possible?, Beverly Wood
Multivariate Thinking In An Intro Stats Course – Is It Possible?, Beverly Wood
Publications
Many of our students have an intuitive sense that there is more to the story than univariate or bivariate data can tell us. We can acknowledge and encourage that habit of digging deeper by demonstrating some ways to look at additional variables. Simpson’s paradox and side-by-side scatter plots are ways to provide a glimpse of more complex analysis that are accessible to students in an introductory course with or without strong quantitative skills.
Statistical Models Of Self-Efficacy In Stem Students, Sarah Painter
Statistical Models Of Self-Efficacy In Stem Students, Sarah Painter
Journal of Undergraduate Research at Minnesota State University, Mankato
Persistence through undergraduate education may be explained by self-efficacy. It is the belief in one’s self to persevere through challenges. Bandura stated four areas that are thought to influence self-efficacy: mastery experience, social persuasion, vicarious experience, and physiological state. In this study, we focused on general and academic self-efficacy in STEM students, in the hopes of learning more about the relationships between Bandura’s categories, demographics, and self-efficacy. Data was taken from two institutions: one, a large research focused university, and the other, a smaller teaching focused university. In the first phase, surveys on general self-efficacy were taken at both institutions …
Thinking Like A Scientist: A Thematic Analysis Of Students' Experiences At The Sacnas Research Conference, Rosa Perez, Rachael D. Robnett
Thinking Like A Scientist: A Thematic Analysis Of Students' Experiences At The Sacnas Research Conference, Rosa Perez, Rachael D. Robnett
McNair Poster Presentations
The underrepresentation of minority students in STEM fields is a concern in today’s society. Research suggests that identity plays a major role in students’ ultimate success within these fields. Using identity theory as a theoretical framework, this study explores the ways in which identity affects the academic careers of underrepresented students in STEM. The participants of this study consisted of undergraduates from various colleges and universities around the United States that attended the SACNAS 2010 research conference. Thematic analysis was used to identify four overarching themes from a set of narrative responses collected after the event. The identified themes include …
Understanding College Students' Disconnections With Mathematics, Karen Jean Edwards
Understanding College Students' Disconnections With Mathematics, Karen Jean Edwards
Legacy Theses & Dissertations (2009 - 2024)
This study explores the disconnections introductory college mathematics students experience with mathematics. The experiences of six former mathematics students from their earliest memories forward to present day were explored. The study employed an interpretive case study and an action research methodology to present a detailed, historical record of the students' interactions and disconnections with learning quantitative material.
A Study Of The Nsf College Science Improvement Program, David E. Drew
A Study Of The Nsf College Science Improvement Program, David E. Drew
CGU Faculty Publications and Research
The College Science Improvement Program was launched in 1966 and has as its stated goal "... to accelerate the development of the science capabilities of predominantly undergraduate institutions and to enhance their capacity for continuing self-renewal" (National Science Foundation, 1969, p. 90). Between the program's inception and the end of fiscal year 1969, COSIP made 105 grants representing a total amount of over $18,000,000 to such institutions