Science and Mathematics Education Commons^™

Using Reflection To Facilitate Writing Knowledge Transfer In Upper-Level Materials Science Courses, Jennifer C. Mallette, Harold Ackler

English Literature Faculty Publications and Presentations

When students enter upper-level engineering courses, they may bring with them unclear or inconsistent approaches to writing in engineering. Influenced by their past experiences with writing, students encountering engineering genres such as reports and proposals may struggle to write successfully. They may struggle in part because of the messiness inherent in writing knowledge transfer: a student who successfully completed freshman composition may still be unable to transfer skills, habits of mind, and approaches to writing from that setting to engineering because the rhetorical situations look drastically different. Yancey, Robertson, and Taczak define transfer as a “dynamic rather than a static …

Evolution Of A First-Year Engineering Course, Noah Salzman, Janet Callahan, Gary Leroy Hunt, Carol Sevier, Amy J. Moll

Electrical and Computer Engineering Faculty Publications and Presentations

The first-year engineering course at Boise State University has evolved significantly over the past decade as a result of continuous improvement with a particular focus on student retention. The course was originally created in 1999-2001 as an “Introduction to Engineering” course in order to recruit students to one of the fields of engineering, by introducing those fields of engineering as topics across the semester. Over the first ten years, the course continued that introductory-to-field focus while also introducing a significant design element solving openended engineering problems. As a result of a five-year grant aimed toward improving first-year retention, the first-year …

Connecting Science With Engineering: Using Inquiry And Design In A Teacher Professional Development Course, Louis S. Nadelson, Patricia Pyke, Janet Callahan, Anne Hay, Joshua Pfiester, Mark A. Emmet

Curriculum, Instruction, and Foundational Studies Faculty Publications and Presentations

The engineering design process has evolved over time to be the central and effective framework that engineers use to conduct their work. Logically, K-12 STEM professional development efforts have then attempted to incorporate the design process into their work. There has been little in the STEM literature, though, of the explicit measurement of the growth in design process knowledge. Our study presents findings of significant improvements in knowledge of the design process that resulted over the course of a recent summer STEM institute and professional development program among K-5 teachers.

As more emphasis is placed on integrating STEM into the …

Teaching Inquiry-Based Stem In The Elementary Grades Using Manipulatives: A Systemic Solution Report, Louis S. Nadelson, Anne Hay, Pat Pyke, Janet Callahan, Cheryl Schrader

Curriculum, Instruction, and Foundational Studies Faculty Publications and Presentations

Young learners come to school holding myriad conceptions about how the world works, particularly in the areas of science, technology, engineering, and mathematics, or STEM.^1-3 Further, young students' conceptions are commonly based on fragmented knowledge or naïve perspectives that contribute to the importance of early exposure to and practice with scrutinizing situations scientifically.^1,3 An important part of helping children gain the skills necessary to approach situations scientifically involves preparing them to conduct scientific inquiry.³ The development of critical thinking skills and scientific approaches to problem solving should begin early in education.⁴ However, lack of elementary …

A Systemic Solution: Elementary Teacher Preparation In Stem Expertise And Engineering Awareness, Louis S. Nadelson, Janet Callahan, Pat Pyke, Anne Hay, Cheryl Schrader

Curriculum, Instruction, and Foundational Studies Faculty Publications and Presentations

Research shows that most K-5 teachers are typically required to complete only minimal coursework in science and mathematics, which constrains their knowledge, efficacy, and confidence for teaching STEM (Science, Technology, Engineering and Math) content. Additionally, elementary teachers, like much of the general public, have limited comprehension about the relationship between STEM concepts and engineering fields and the kind of work and societal contributions made by engineers. Yet, elementary school is a critical time in which students develop foundational understanding of STEM concepts, career options, and inquiry learning.

To address students' STEM needs and limited teacher preparation, the Idaho SySTEMic Solution …