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Peer reviewed
Direct linkWhite, Susan C. – Physics Teacher, 2015
Each year we attempt to contact each person who received a bachelor's degree in physics one year earlier to ask them what they are doing. New degree recipients typically follow one of two paths: enrolling in graduate school or entering the employment market. For the classes of 2011 and 2012 combined, nearly 60% chose to enroll in a graduate…
Descriptors: Physics, Bachelors Degrees, College Graduates, College Science
Pollock, David W.; Truong, Giovanna T.; Bonjour, Jessica L.; Frost, John A. – Journal of Chemical Education, 2018
Solubility is frequently introduced at the high school and introductory college levels through the symbolic domain using net ionic equations and solubility product constants. Students may become proficient with spectator ion cancellation and skilled with algorithmic mathematical applications of solubility without obtaining a deeper understanding…
Descriptors: Spectroscopy, Chemistry, Data Collection, Science Experiments
Martinez, Luis R.; Boucaud, Dwayne W.; Casadevall, Arturo; August, Avery – CBE - Life Sciences Education, 2018
We report the outcomes of a survey of underrepresented minorities (URMs) in life science academic (e.g., faculty) and nonacademic (e.g., research-related) positions seeking to ascertain variables that contribute to their success (e.g., favorable or desired outcome). Given that they had positions in research careers, all respondents were presumed…
Descriptors: Minority Groups, Disproportionate Representation, Biological Sciences, Success
Tobin, R. G. – Physics Teacher, 2018
Abundant research leaves little question that pedagogical approaches involving active student engagement with the material, and opportunities for student-to-student discussions, lead to much better learning outcomes than traditional instructor-led, expository instructional formats, in physics and in many other fields. In introductory college…
Descriptors: College Students, College Science, Introductory Courses, Physics
Bollen, Laurens; van Kampen, Paul; De Cock, Mieke – Physical Review Physics Education Research, 2018
We have developed, implemented, and assessed a teaching-learning sequence that aims to enhance students' understanding of the divergence and curl of electromagnetic fields. We designed guided-inquiry worksheets based on student difficulties we identified during semiquantitative and qualitative studies and discussions in the literature. A multiple…
Descriptors: Energy, Magnets, Teaching Methods, Concept Formation
McKenna, Brigid A.; Kopittke, Peter M. – Journal of Computer Assisted Learning, 2018
Quantifying student engagement with online learning resources on virtual learning environments such as BlackBoard is important in understanding how these technologies enhance the student learning. In the present study, it was examined when, and how often, first-year students accessed lecture recordings, lecture slides, and lecture notes via…
Descriptors: Learner Engagement, Science Instruction, Natural Resources, Science Curriculum
Moldwin, Mark B. – Journal of College Science Teaching, 2018
Many large-lecture introductory science courses for nonscience majors do not have a lab component and hence do not provide much opportunity for students to engage in the practice of science. I have developed a new instructional activity called Dorm Room Labs that enables students to conduct hands-on activities as homework (or dorm room work) to…
Descriptors: Introductory Courses, College Science, Science Laboratories, Nonmajors
Next-Generation Teaching: A Template for Bringing Genomic and Bioinformatic Tools into the Classroom
Hotaling, Scott; Slabach, Brittany L.; Weisrock, David W. – Journal of Biological Education, 2018
The recent increase in accessibility and scale of genetic data available through next-generation sequencing (NGS) technology has transformed biological inquiry. As a direct result, the application and analysis of NGS data has quickly become an important skill for future scientists. However, the steep learning curve for applying NGS technology to…
Descriptors: Biology, Genetics, Data Analysis, Technology Integration
Najmr, Stan; Chae, Joanna; Greenberg, Mara L.; Bowman, Cory; Harkavy, Ira; Maeyer, Jenine R. – Journal of Chemical Education, 2018
Improving communication between people in science, technology, engineering, and mathematics (STEM) fields and the public is critical to the future of STEM. Partnerships between institutions of higher education with K-12 schools are identified as one effective strategy to support community engagement. We have employed a service-learning model to…
Descriptors: Service Learning, Chemistry, College Science, Science Education
Owens, Melinda T.; Trujillo, Gloriana; Seidel, Shannon B.; Harrison, Colin D.; Farrar, Katherine M.; Benton, Hilary P.; Blair, J. R.; Boyer, Katharyn E.; Breckler, Jennifer L.; Burrus, Laura W.; Byrd, Dana T.; Caporale, Natalia; Carpenter, Edward J.; Chan, Yee-Hung M.; Chen, Joseph C.; Chen, Lily; Chen, Linda H.; Chu, Diana S.; Cochlan, William P.; Crook, Robyn J.; Crow, Karen D.; de la Torre, José R.; Denetclaw, Wilfred F.; Dowdy, Lynne M.; Franklin, Darleen; Fuse, Megumi; Goldman, Michael A.; Govindan, Brinda; Green, Michael; Harris, Holly E.; He, Zheng-Hui; Ingalls, Stephen B.; Ingmire, Peter; Johnson, Amber R. B.; Knight, Jonathan D.; LeBuhn, Gretchen; Light, Terrye L.; Low, Candace; Lund, Lance; Márquez-Magaña, Leticia M.; Miller-Sims, Vanessa C.; Moffatt, Christopher A.; Murdock, Heather; Nusse, Gloria L.; Parker, V. Thomas; Pasion, Sally G.; Patterson, Robert; Pennings, Pleuni S.; Ramirez, Julio C.; Ramirez, Robert M.; Riggs, Blake; Rohlfs, Rori V.; Romeo, Joseph M.; Rothman, Barry S.; Roy, Scott W.; Russo-Tait, Tatiane; Sehgal, Ravinder N. M.; Simonin, Kevin A.; Spicer, Greg S.; Stillman, Jonathon H.; Swei, Andrea; Timpe, Leslie C.; Vredenburg, Vance T.; Weinstein, Steven L.; Zink, Andrew G.; Kelley, Loretta A.; Domingo, Carmen R.; Tanner, Kimberly D. – CBE - Life Sciences Education, 2018
Many efforts to improve science teaching in higher education focus on a few faculty members at an institution at a time, with limited published evidence on attempts to engage faculty across entire departments. We created a long-term, department-wide collaborative professional development program, Biology Faculty Explorations in Scientific Teaching…
Descriptors: Biology, College Science, Science Instruction, Faculty Development
Donovan, Deborah A.; Connell, Georgianne L.; Grunspan, Daniel Z. – CBE - Life Sciences Education, 2018
Group work is often a key component of student-centered pedagogies, but there is conflicting evidence about what types of groups provide the most benefit for undergraduate students. We investigated student learning outcomes and attitudes toward working in groups when students were assigned to groups using different methods in a large-enrollment,…
Descriptors: Biology, Nonmajors, Undergraduate Students, College Science
Miller, Travis A.; Carver, Jeffrey S.; Roy, Abhik – Journal of College Science Teaching, 2018
This article outlines a study that compared an online virtual laboratory with a face-to-face laboratory. The main objective of the study was to evaluate the effectiveness of a virtual method of instruction for a general studies, physical science laboratory course. Using a pretest-posttest only design with nonequivalent control groups, differences…
Descriptors: Science Instruction, Teaching Methods, Educational Technology, Technology Uses in Education
Download full textReyna, Jorge; Meier, Peter – IAFOR Journal of Education, 2018
Learner-Generated Digital Media (LGDM) in tertiary science education focuses on research skills, inquiry, active learning, teamwork, and collaboration. LGDM across disciplines is under-theorised, under-researched, and only in its early development. This paper evaluates the research in the field of LGDM in tertiary science education. The literature…
Descriptors: College Science, College Students, Science Instruction, Educational Technology
Wanford, Joe; Aidley, Jack; Bayliss, Chris; Ketley, Julian; Goodwin, Mark – Journal of Biological Education, 2018
Mutation, diversity, natural selection and the biology of human pathogens (including antibiotic resistance) are key features of the biosciences curriculum at A Level and undergraduate study. Few resources exist to allow students to engage with these topics in an interactive manner. This paper describes an interactive, online simulation of mutation…
Descriptors: Biology, Science Instruction, College Science, Undergraduate Study
Aghekyan, Rosa – Journal of College Science Teaching, 2018
Inclusion of model building in the learning process promotes a deep understanding of scientific content and concepts. Likewise, higher level questioning requires high cognitive demand and critical reasoning and leads to positive educational results. The purpose of this study was to determine whether the conjunction of higher level thinking…
Descriptors: Thinking Skills, Critical Thinking, Logical Thinking, Scientific Concepts
