Publication Date
| In 2025 | 0 |
| Since 2024 | 0 |
| Since 2021 (last 5 years) | 0 |
| Since 2016 (last 10 years) | 20 |
Descriptor
Source
| CBE - Life Sciences Education | 20 |
Author
| Andrews, T. C. | 2 |
| Lopatto, David | 2 |
| Alam, Usman | 1 |
| Amanda Snyder | 1 |
| Anders, Kirk R. | 1 |
| Anderson, William L. | 1 |
| Auerbach, A. J. | 1 |
| Benton, Hilary P. | 1 |
| Beyer, Katherine M. | 1 |
| Blair, J. R. | 1 |
| Boyer, Katharyn E. | 1 |
| More ▼ | |
Publication Type
| Journal Articles | 20 |
| Reports - Research | 19 |
| Reports - Descriptive | 1 |
Education Level
| Higher Education | 19 |
| Postsecondary Education | 11 |
| Grade 10 | 1 |
| Grade 11 | 1 |
| Grade 12 | 1 |
| High Schools | 1 |
| Secondary Education | 1 |
| Two Year Colleges | 1 |
Audience
Location
| California | 2 |
| Wisconsin (Madison) | 2 |
| Arizona | 1 |
| California (San Francisco) | 1 |
| Georgia | 1 |
| Georgia (Atlanta) | 1 |
| Iowa | 1 |
| Nebraska (Lincoln) | 1 |
| New Mexico (Albuquerque) | 1 |
| Tennessee | 1 |
| Washington | 1 |
| More ▼ | |
Laws, Policies, & Programs
Assessments and Surveys
What Works Clearinghouse Rating
Peer reviewed
Direct linkWarfa, Abdi-Rizak M. – CBE - Life Sciences Education, 2016
Educational research often requires mixing different research methodologies to strengthen findings, better contextualize or explain results, or minimize the weaknesses of a single method. This article provides practical guidelines on how to conduct such research in biology education, with a focus on mixed-methods research (MMR) that uses both…
Descriptors: Mixed Methods Research, Research Methodology, Biology, 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
Sensibaugh, Cheryl A.; Madrid, Nathaniel J.; Choi, Hye-Jeong; Anderson, William L.; Osgood, Marcy P. – CBE - Life Sciences Education, 2017
With growing interest in promoting skills related to the scientific process, we studied performance in solving ill-defined problems demonstrated by graduating biochemistry majors at a public, minority-serving university. As adoption of techniques for facilitating the attainment of higher-order learning objectives broadens, so too does the need to…
Descriptors: Problem Solving, Biochemistry, Undergraduate Students, College Science
Solomon, Erin D.; Repice, Michelle D.; Mutambuki, Jacinta M.; Leonard, Denise A.; Cohen, Cheryl A.; Luo, Jia; Frey, Regina F. – CBE - Life Sciences Education, 2018
Active learning with clickers is a common approach in high-enrollment, lecture-based courses in science, technology, engineering, and mathematics. In this study, we describe the procedures that faculty at one institution used when implementing clicker-based active learning, and how they situated these activities in their class sessions. Using a…
Descriptors: STEM Education, Mixed Methods Research, Active Learning, Audience Response Systems
Wienhold, Caroline J.; Branchaw, Janet – CBE - Life Sciences Education, 2018
The transition to college is challenging for most students, especially those who aspire to major in the science, technology, engineering, or mathematics disciplines, in which introductory courses can be large and instruction less than optimal. This paper describes a novel, disciplinary first-year seminar (FYS) course, Exploring Biology, designed…
Descriptors: College Freshmen, First Year Seminars, Student Improvement, Science Achievement
Eisen, Arri; Eaton, Douglas C. – CBE - Life Sciences Education, 2017
How does the United States maintain the highest-quality research and teaching in its professional science workforce and ensure that those in this workforce are effectively trained and representative of national demographics? In the pathway to science careers, the postdoctoral stage is formative, providing the experiences that define the…
Descriptors: Models, Postdoctoral Education, Biomedicine, Science Instruction
Gregg-Jolly, Leslie; Swartz, Jim; Iverson, Ellen; Stern, Joyce; Brown, Narren; Lopatto, David – CBE - Life Sciences Education, 2016
Challenges particular to second-year students have been identified that can impact persistence in science, technology, engineering, and mathematics (STEM) fields. We implemented a program to improve student success in intermediate-level science courses by helping students to feel they belonged and could succeed in STEM. We used survey measures of…
Descriptors: Liberal Arts, STEM Education, Undergraduate Students, Student Experience
Metcalf, Heather – CBE - Life Sciences Education, 2016
This research methods Essay details the usefulness of critical theoretical frameworks and critical mixed-methodological approaches for life sciences education research on broadening participation in the life sciences. First, I draw on multidisciplinary research to discuss critical theory and methodologies. Then, I demonstrate the benefits of these…
Descriptors: Biological Sciences, Mixed Methods Research, Science Education, Science Instruction
Connolly, Mark R.; Lee, You-Geon; Savoy, Julia N. – CBE - Life Sciences Education, 2018
To help prepare future faculty in science, technology, engineering, and mathematics (STEM) to teach undergraduates, more research universities are offering teaching development (TD) programs to doctoral students who aspire to academic careers. Using social cognitive career theory, we examine the effects of TD programs on early-career STEM…
Descriptors: STEM Education, Scholarship, College Instruction, College Science
Sato, Brian K.; Lee, Amanda K.; Alam, Usman; Dang, Jennifer V.; Dacanay, Samantha J.; Morgado, Pedro; Pirino, Giorgia; Brunner, Jo Ellen; Castillo, Leanne A.; Chan, Valerie W.; Sandholtz, Judith H. – CBE - Life Sciences Education, 2017
Despite the ubiquity of prerequisites in undergraduate science, technology, engineering, and mathematics curricula, there has been minimal effort to assess their value in a data-driven manner. Using both quantitative and qualitative data, we examined the impact of prerequisites in the context of a microbiology lecture and lab course pairing.…
Descriptors: Mixed Methods Research, Prerequisites, Required Courses, Microbiology
Auerbach, A. J.; Higgins, M.; Brickman, P.; Andrews, T. C. – CBE - Life Sciences Education, 2018
Active-learning strategies "can" improve science, technology, engineering, and mathematics (STEM) undergraduates' abilities to learn fundamental concepts and skills. However, the results instructors achieve vary substantially. One explanation for this is that instructors commonly implement active learning differently than intended. An…
Descriptors: Teacher Characteristics, Active Learning, Beginning Teachers, Experienced Teachers
Staub, Nancy L.; Poxleitner, Marianne; Braley, Amanda; Smith-Flores, Helen; Pribbenow, Christine M.; Jaworski, Leslie; Lopatto, David; Anders, Kirk R. – CBE - Life Sciences Education, 2016
Authentic research experiences are valuable components of effective undergraduate education. Research experiences during the first years of college are especially critical to increase persistence in science, technology, engineering, and mathematics fields. The Science Education Alliance Phage Hunters Advancing Genomics and Evolutionary Science…
Descriptors: Student Research, College Freshmen, Biology, College Science
Wiggins, Benjamin L.; Eddy, Sarah L.; Wener-Fligner, Leah; Freisem, Karen; Grunspan, Daniel Z.; Theobald, Elli J.; Timbrook, Jerry; Crowe, Alison J. – CBE - Life Sciences Education, 2017
The primary measure used to determine relative effectiveness of in-class activities has been student performance on pre/posttests. However, in today's active-learning classrooms, learning is a social activity, requiring students to interact and learn from their peers. To develop effective active-learning exercises that engage students, it is…
Descriptors: Active Learning, Student Attitudes, Class Activities, Pretests Posttests
Andrews, T. C.; Conaway, E. P.; Zhao, J.; Dolan, E. L. – CBE - Life Sciences Education, 2016
Relationships with colleagues have the potential to be a source of support for faculty to make meaningful change in how they teach, but the impact of these relationships is poorly understood. We used a mixed-methods approach to investigate the characteristics of faculty who provide colleagues with teaching resources and facilitate change in…
Descriptors: Research Universities, Science Departments, College Faculty, Change Agents
Olimpo, Jeffrey T.; Fisher, Ginger R.; DeChenne-Peters, Sue Ellen – CBE - Life Sciences Education, 2016
Within the past decade, course-based undergraduate research experiences (CUREs) have emerged as a viable mechanism to enhance novices' development of scientific reasoning and process skills in the science, technology, engineering, and mathematics disciplines. Recent evidence within the bioeducation literature suggests that student engagement in…
Descriptors: Undergraduate Study, Undergraduate Students, Student Attitudes, Student Motivation
Previous Page | Next Page »
Pages: 1 | 2
