Educational efforts to promote effective oral science communication at the undergraduate level tend to reinforce strategies related to impression management. Students are taught tactics that can be used to create the impression of competent science communication without reflectively considering epistemological beliefs. Deeper aspects of oral science communication, including underlying epistemic functions, are overlooked. In this article, we examine an undergraduate biology course that includes student reflection about the nature of science communication.

Educational efforts to promote effective oral science communication at the undergraduate level tend to reinforce strategies related to impression management. Students are taught tactics that can be used to create the impression of competent science communication without reflectively considering epistemological beliefs. Deeper aspects of oral science communication, including underlying epistemic functions, are overlooked. In this article, we examine an undergraduate biology course that includes student reflection about the nature of science communication.

This article presents a semester-long, interdisciplinary project-based learning (PBL) suitable for secondary and postsecondary students enrolled in a second-semester (i.e., intermediate) meteorology course. This case-study approach builds on the research question “What atmospheric conditions lead to tornadoes, hail, and damaging winds locally?” Students work collaboratively in a series of five activities, using an online database analyzing map and weather data from a subset of severe weather events.

This article presents a semester-long, interdisciplinary project-based learning (PBL) suitable for secondary and postsecondary students enrolled in a second-semester (i.e., intermediate) meteorology course. This case-study approach builds on the research question “What atmospheric conditions lead to tornadoes, hail, and damaging winds locally?” Students work collaboratively in a series of five activities, using an online database analyzing map and weather data from a subset of severe weather events.

As part of a larger study investigating the perceptions of university academics about science, technology, engineering, and mathematics (STEM); STEM learning environments; and necessary capabilities for STEM educators at a university, this article reports a sample of academics’ perceptions of STEM and its teaching and learning, as gleaned from their Draw a STEM Learning Environment (D-STEM) depictions and associated texts.

As part of a larger study investigating the perceptions of university academics about science, technology, engineering, and mathematics (STEM); STEM learning environments; and necessary capabilities for STEM educators at a university, this article reports a sample of academics’ perceptions of STEM and its teaching and learning, as gleaned from their Draw a STEM Learning Environment (D-STEM) depictions and associated texts.

A lateral flow assay was designed and optimized as an independent study project that aimed to develop an assay for the qualitative detection of troponin assay. Lateral flow assays (the classic example being a pregnancy test) have the advantage of being rapid, specific, and user-friendly. They are composed of an absorbent pad, a nitrocellulose membrane, a conjugate pad, and a sample pad with laminated backing. The nitrocellulose membrane is marked with antibodies at a control line and test line, which change color to red when troponin is detected.

A lateral flow assay was designed and optimized as an independent study project that aimed to develop an assay for the qualitative detection of troponin assay. Lateral flow assays (the classic example being a pregnancy test) have the advantage of being rapid, specific, and user-friendly. They are composed of an absorbent pad, a nitrocellulose membrane, a conjugate pad, and a sample pad with laminated backing. The nitrocellulose membrane is marked with antibodies at a control line and test line, which change color to red when troponin is detected.

Volume 52, Number 6

Volume 52, Number 6

Volume 52, Number 6

Volume 90, Number 6

Engaging All Students in Our Science Classes

Making science engaging for ALL students requires each of us to know our students as learners with individual interests and identities.

Volume 90, Number 6

Engaging All Students in Our Science Classes

Making science engaging for ALL students requires each of us to know our students as learners with individual interests and identities.

Volume 90, Number 6

Engaging All Students in Our Science Classes

Making science engaging for ALL students requires each of us to know our students as learners with individual interests and identities.

Clear key results and simple figures have clear advantages when teaching. However, these same properties can mislead some students. I provide examples from my presentation on the body mass index, Centers for Disease Control and Prevention maps of the prevalence of obesity, changes in blood flow to organs when someone moves from rest to exercise, and nutritional values of food.

Clear key results and simple figures have clear advantages when teaching. However, these same properties can mislead some students. I provide examples from my presentation on the body mass index, Centers for Disease Control and Prevention maps of the prevalence of obesity, changes in blood flow to organs when someone moves from rest to exercise, and nutritional values of food.

In this article, we describe and analyze the experience of undergraduate chemistry students who scripted episodes of a science podcast for non-expert audiences. This practice aimed to improve public communication of science and technology, often suppressed throughout science careers but relevant for developing critical thinking. In particular, the script analysis focused on writing strategies used by students to promote suitability to the target audience.

In this article, we describe and analyze the experience of undergraduate chemistry students who scripted episodes of a science podcast for non-expert audiences. This practice aimed to improve public communication of science and technology, often suppressed throughout science careers but relevant for developing critical thinking. In particular, the script analysis focused on writing strategies used by students to promote suitability to the target audience.

Preservice elementary teachers are faced with the daunting task of learning enough about every subject to support their students’ development of foundational ideas. Teacher preparation programs and professional development providers therefore have the challenge of supporting those preservice and in-service teachers by providing content and methods courses in all core subject areas. These initiatives often put an emphasis on math and reading rather than science, as these subjects are tested most often and serve as the gatekeepers to other content.

Preservice elementary teachers are faced with the daunting task of learning enough about every subject to support their students’ development of foundational ideas. Teacher preparation programs and professional development providers therefore have the challenge of supporting those preservice and in-service teachers by providing content and methods courses in all core subject areas. These initiatives often put an emphasis on math and reading rather than science, as these subjects are tested most often and serve as the gatekeepers to other content.