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Who Is Most Affected By COVID-19?
Using StoryMaps With Student Investigations
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Media Literacy in the Age of COVID and Climate Change
The Science Teacher—July/August 2021 (Volume 88, Issue 6)
By Jocelyn Miller, Linda Rost, Connor Bryant, Robyn Embry, Shazia Iqbal, Claire Lannoye-Hall, and Missie Olson
Resource Rendezvous
Soldiers of Science
The Science Teacher—July/August 2021 (Volume 88, Issue 6)
By Holly Amerman
FOCUS ON PHYSICS
Crunching Cans and Generating Power
The Science Teacher—July/August 2021 (Volume 88, Issue 6)
By Paul G. Hewitt
Citizen Science
Learning on Location With NASA GLOBE Observer
The Science Teacher—July/August 2021 (Volume 88, Issue 6)
By Jill Nugent
Editor's Corner
COVID-19: One Year Later
The Science Teacher—July/August 2021 (Volume 88, Issue 6)
By Ann Haley MacKenzie
Research and Teaching
Adding Necessary Rigor to Engineering Pedagogical Change
Instructional Innovation Versus Research-Informed Counter-Resistance
Journal of College Science Teaching—July/August 2021 (Volume 50, Issue 6)
By Yonghee Lee, Carl Lund, and Randy Yerrick
In this study, we explore the teaching of an acclaimed engineering education professor and his struggles to transform his classroom in light of the National Academy of Engineering standards. We argue that pedagogical changes, particularly in contexts where students have been highly successful, may be preemptively abandoned in response to students’ floundering. We offer three instances in which direct counter-resistance to students’ responses to pedagogical innovation allowed this expert instructor to achieve his long-term goal of students’ higher-level thinking. Implications for future teaching and research are discussed.
In this study, we explore the teaching of an acclaimed engineering education professor and his struggles to transform his classroom in light of the National Academy of Engineering standards. We argue that pedagogical changes, particularly in contexts where students have been highly successful, may be preemptively abandoned in response to students’ floundering. We offer three instances in which direct counter-resistance to students’ responses to pedagogical innovation allowed this expert instructor to achieve his long-term goal of students’ higher-level thinking.
In this study, we explore the teaching of an acclaimed engineering education professor and his struggles to transform his classroom in light of the National Academy of Engineering standards. We argue that pedagogical changes, particularly in contexts where students have been highly successful, may be preemptively abandoned in response to students’ floundering. We offer three instances in which direct counter-resistance to students’ responses to pedagogical innovation allowed this expert instructor to achieve his long-term goal of students’ higher-level thinking.
Research and Teaching
STEM Bridge Program
Underrepresented Minority Students’ Perceptions of Louis Stokes Alliance for Minority Participation Program Impact
Journal of College Science Teaching—July/August 2021 (Volume 50, Issue 6)
By Anna Brady and Dorinda Gallant
We explored underrepresented minority (URM) students’ perceptions of the merit and worth of a summer STEM bridge program. The Ohio State Louis Stokes Alliance for Minority Participation program facilitated a three-week residential program for three consecutive summers with the goal of social and academic integration of first-year URM students into the Ohio State University. We were interested in understanding students’ perception of the impact of the bridge program. Through qualitative data analysis, our findings revealed five impacts of the program: acclimation to college, confidence, self-awareness, connections with others, and college preparation. In addition to exploring students’ perception of the program impacts, we asked students to identify elements of the program that were most beneficial and elements of the program to change. Our findings revealed that students found the introduction to college, facilitation of connections, and autonomy to be the most beneficial aspects of the program. Interestingly, students disagreed on elements of the bridge program to change. In light of our findings, we highlight the importance of ongoing evaluations of bridge programs, particularly evaluations that emphasize students’ perceptions of the impact of programs.
We explored underrepresented minority (URM) students’ perceptions of the merit and worth of a summer STEM bridge program. The Ohio State Louis Stokes Alliance for Minority Participation program facilitated a three-week residential program for three consecutive summers with the goal of social and academic integration of first-year URM students into the Ohio State University. We were interested in understanding students’ perception of the impact of the bridge program.
We explored underrepresented minority (URM) students’ perceptions of the merit and worth of a summer STEM bridge program. The Ohio State Louis Stokes Alliance for Minority Participation program facilitated a three-week residential program for three consecutive summers with the goal of social and academic integration of first-year URM students into the Ohio State University. We were interested in understanding students’ perception of the impact of the bridge program.
Research and Teaching
A Novel Rubric Format for Providing Feedback on Process Skills to STEM Undergraduate Students
Journal of College Science Teaching—July/August 2021 (Volume 50, Issue 6)
By Doug Czajka, Gil Reynders, Courtney Stanford, Renée Cole, Juliette Lantz, and Suzanne Ruder
To improve student process-skill development, a novel type of rubric was developed that goes beyond a typical analytic rubric by providing detailed feedback to students. Process skills are transferable skills such as information processing, critical thinking, communication, and teamwork; these skills are necessary for success in all STEM courses as well as in the workforce. In addition to the categories and descriptors commonly found in rubrics, these “feedback-style” rubrics also contain observable characteristics and suggestions for improvement. The observable characteristics provide specific criteria to look for when assessing students’ written work or group interactions. The suggestions for improvement are intended to promote a growth mindset in students and help them further progress in their development of each skill. In a large-enrollment class, undergraduate teaching assistants (UTA) used the feedback rubrics to rate student skills while students also self-assessed their skills. The results of our statistical analysis indicate that after the feedback rubrics were provided to students, their subsequent self-assessments became more similar to the UTA scores. These rubrics can be used in STEM disciplines at multiple course levels to assess and provide feedback to students on their skill development.
To improve student process-skill development, a novel type of rubric was developed that goes beyond a typical analytic rubric by providing detailed feedback to students. Process skills are transferable skills such as information processing, critical thinking, communication, and teamwork; these skills are necessary for success in all STEM courses as well as in the workforce. In addition to the categories and descriptors commonly found in rubrics, these “feedback-style” rubrics also contain observable characteristics and suggestions for improvement.
To improve student process-skill development, a novel type of rubric was developed that goes beyond a typical analytic rubric by providing detailed feedback to students. Process skills are transferable skills such as information processing, critical thinking, communication, and teamwork; these skills are necessary for success in all STEM courses as well as in the workforce. In addition to the categories and descriptors commonly found in rubrics, these “feedback-style” rubrics also contain observable characteristics and suggestions for improvement.
Research and Teaching
Early Exposure to Primary Literature and Interactions With Scientists Influences Novice Students’ Views on the Nature of Science
Journal of College Science Teaching—July/August 2021 (Volume 50, Issue 6)
By Kelly M. Schmid, Ryan D. P. Dunk, and Jason R. Wiles
Postsecondary science faculty often hope to help students to better understand science through engagement with primary research literature. Undergraduates in courses focused on reading and discussion of research literature, along with interactions with scientists, encounter many of the major elements of the Nature of Science (NOS). We explored whether participation in such a course may impact students’ (N = 12) NOS understandings, even though the course did not include explicit, intentional NOS instruction. Students’ qualitative responses to questions from the VNOS-C administered before and after the course suggested that participation in this course was associated with shifts in students’ NOS perceptions in three areas: (1) from the idea that science is universal to the idea that science is influenced by society and culture; (2) in students’ self-definition of science—from a single linear process to a more iterative field of shared, varied methodologies; and (3) in what ways they viewed science to be creative—from experimental design only to also including interpretation and communication of results. Results suggest that engaging with primary research literature and interacting with scientists fosters development of students’ understandings of the tools and products and the human elements of science, but development of other elements may require targeted instruction.