skip to main content


Title: Transcending disciplines: Engaging college students in interdisciplinary research, integrated STEM, and partnerships
An authentic, interdisciplinary, research and problem-based integrated science, technology, engineering, and mathematics (STEM) project may be ideal for encouraging scientific inquiry and developing teamwork among undergraduate students, but it also presents challenges. The authors describe how two interdisciplinary teams (n=6) of undergraduate college students built integrated STEM projects in a research based internship setting, and then collaboratively brought the project to fruition to include designing lessons and activities shared with K-12 students in a classroom setting. Each three person undergraduate team consisted of two STEM majors and one Education major. The Education majors are a special focus for this study. Interviews, field observations, and lesson plan artifacts collected from the undergraduate college students were analyzed according to authenticity factors, the authentic scientific inquiry instrument, and an integrated STEM instrument. The authors highlight areas of strength and weakness for both teams and explore how preservice teachers contributed to integrated STEM products and lessons. Teacher educators might apply recommendations for teacher preparation and professional development when facilitating authentic scientific inquiry and integrated STEM topics with both STEM and non-STEM educators. Undergraduate college students were challenged to fully integrate the STEM disciplines, transitions between them, and the spaces between them where multiple disciplines existed. By describing the challenges of integrating the spaces between STEM, the authors offer a description of the undergraduate college students’ experiences in an effort to expand the common message beyond a flat approach of try this activity because it works, to a more robust message of try this type of engagement and purposefully organize for maximum results.  more » « less
Award ID(s):
1821566
PAR ID:
10314216
Author(s) / Creator(s):
; ; ; ; ;
Date Published:
Journal Name:
Journal of Technology and Science Education
Volume:
11
Issue:
1
ISSN:
2013-6374
Format(s):
Medium: X
Sponsoring Org:
National Science Foundation
More Like this
  1. Seagroves, Scott ; Barnes, Austin ; Metevier, Anne ; Porter, Jason ; Hunter, Lisa (Ed.)
    A significant focus of the ISEE Professional Development Program (PDP) is identifying authentic STEM practices, so that educators and scientists can develop and assess these practices as intentionally as they would scientific content knowledge. In addition to the classic inquiry-based learning activities, PDP alumni also find themselves using and teaching these STEM practices in other contexts. Many PDP participants have benefited from recognizing "STEM practices" as its own category of specific skills and knowledge, allowing them to build these practices into their work intentionally, rather than simply expecting these skills to develop naturally as a by-product of learning STEM content. We present four instances where PDP lessons have been put to work by alumni of the program in this manner, either in teaching and mentoring students, performing real-world scientific research, or both. First, we consider two instances of alumni using their PDP training to inform the way they build authentic STEM practices into college classrooms and college mentorship, at the College of St. Scholastica and at UC Santa Cruz. Next, we describe a course-based undergraduate research experience (CURE) in which students learn and employ authentic STEM research practices at the University of Colorado at Boulder. Finally, we present an example of an alumna who has used her identification of widely-applicable STEM practices to broaden her own research horizons at Lawrence Berkeley National Laboratory. 
    more » « less
  2. The Engineering Design in Scientific Inquiry (EDISIn) Project addresses the engineering preparation of secondary science teachers by embedding engineering design into a science course for single-subject STEM education majors (future secondary teachers), and developing a sequence of lesson plans and annotated video for faculty who seek to embed engineering design in their science courses. While undergraduate laboratories are rich with designed experimental apparatus, it is rare that students themselves play a role in designing and producing artifacts in the service of scientific inquiry. Our expectation is that (1) existing science courses offer opportunities for students to engage meaningfully with engineering practices, by solving design challenges that emerge in the construction of scientific ideas; and (2) doing so can capitalize on existing curricula that science education has developed, facilitating the adoption of engineering design into preservice teacher education. As part of NSF’s Improving Undergraduate STEM Education (IUSE) funding program, this proposal is part of a broader effort to transform undergraduate science education, preparing students to be innovators and leaders in STEM. 
    more » « less
  3. Abstract Background

    Continuous calls for reform in science education emphasize the need to provide science experiences in lower-division courses to improve the retention of STEM majors and to develop science literacy and STEM skills for all students. Open or authentic inquiry and undergraduate research are effective science experiences leading to multiple gains in student learning and development. Most inquiry-based learning activities, however, are implemented in laboratory classes and the majority of them are guided inquiries. Although course-based undergraduate research experiences have significantly expanded the reach of the traditional apprentice approach, it is still challenging to provide research experiences to nonmajors and in large introductory courses. We examined student learning through a web-based authentic inquiry project implemented in a high-enrollment introductory ecology course for over a decade.

    Results

    Results from 10 years of student self-assessment of learning showed that the authentic inquiry experiences were consistently associated with significant gains in self-perception of interest and understanding and skills of the scientific process for all students—both majors and nonmajors, both lower- and upper-division students, both women and men, and both URM and non-URM students. Student performance in evaluating the quality of an inquiry report, before and after the inquiry project, also showed significant learning gains for all students. The authentic inquiry experiences proved highly effective for lower-division students, nonmajors, and women and URM students, whose learning gains were similar to or greater than those of their counterparts. The authentic inquiry experiences were particularly helpful to students who were less prepared with regard to the ability to evaluate a scientific report and narrowed the performance gap.

    Conclusions

    These findings suggest that authentic inquiry experiences can serve as an effective approach for engaging students in high-enrollment, introductory science courses. They can facilitate development of science literacy and STEM skills of all students, skills that are critical to students’ personal and professional success and to informed engagement in civic life.

     
    more » « less
  4. Smith, W. M. (Ed.)
    The NebraskaMATH Omaha Noyce Partnership Scholarship awards scholarships funded by the National Science Foundation (NSF) to undergraduate students interested in mathematics education at the University of Nebraska at Omaha (UNO). Scholars, who are dual mathematics and secondary education majors, are engaged and supported by Noyce faculty to not only excel in their college coursework and career preparation, but also to serve the university and community through teaching assistantships and STEM community outreach. The main goal of this program is to strengthen and expand the pipeline for preparing high-quality teachers of mathematics to better meet the responsibilities and demands of local school districts, particularly those serving students with high-need. Cross-campus collaborations between the departments of teacher education and mathematics co-constructed the Noyce infrastructure to emphasize and share the development of future, high-quality secondary mathematics teachers (Mathematics Teacher Education Partnership, 2014). This paper describes our program’s unique design and implementation features aimed to empower, engage, and extend the talents of our undergraduate students. We share lessons learned and recommendations from faculty and participants regarding decisions and facets of the program considered to be most influential in STEM teacher and leadership development. 
    more » « less
  5. Understanding teachers’ conceptions surrounding integrated STEM education is vital to the successful implementation of integrated STEM curricula in K-12 classrooms. Of particular interest is understanding how teachers conceptualize the role of the STEM disciplines within their integrated STEM teaching. Further, despite knowing that content-agnostic characteristics of integrated STEM education are important, little is known about how teachers conceptualize the real-world problems, 21st century skills, and the promotion of STEM careers in their integrated STEM instruction. This study used an exploratory case study design to investigate conceptions of 19 K-12 science teachers after participating in an integrated STEM-focused professional development and implementing integrated STEM lessons into their classrooms. Our findings show that all teacher participants viewed STEM education from an integrative perspective that fosters the development of 21st century skills, using real-world problems to motivate students. Our findings also reveal that teachers have varying ideas related to the STEM disciplines within integrated STEM instruction, which could assist teacher educators in preparing high-quality professional development experiences. Findings related to real-world problems, 21st century skills, and STEM careers provide a window into how to best support teachers to include these characteristics into their teaching more explicitly. 
    more » « less