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18 - Undergraduate Research in Physics

from Part III.1 - STEM

Published online by Cambridge University Press:  11 August 2022

By
Neal Broadus Abraham ,
Janice Hudgings ,
Michael Jackson  and
Warren F. Rogers
Edited by
Harald A. Mieg ,
Elizabeth Ambos ,
Angela Brew ,
Dominique Galli  and
Judith Lehmann
Harald A. Mieg
Affiliation:
Humboldt-Universität zu Berlin
Elizabeth Ambos
Affiliation:
Council on Undergraduate Research, Washington DC
Angela Brew
Affiliation:
Macquarie University, Sydney
Dominique Galli
Affiliation:
Indiana University–Purdue University, Indianapolis
Judith Lehmann
Affiliation:
Universidad de Buenos Aires, Argentina
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Summary

Undergraduate research experiences have been identified as a high-impact practice in higher education.Within the physics community, research experiences were cited as a critical educational experience for undergraduate students by many thriving physics programs. Furthermore, the discipline has, for many years, supported undergraduate research experiences by advocating for and funding such programs as well as providing opportunities for undergraduate students to present their research at professional conferences and in peer-reviewed professional journals. In this chapter, the authors briefly highlight the benefits of research experiences to undergraduate physics students along with some of the known or community-accepted best practices for engaging undergraduate students in research. The authors also discuss the challenges faced by the community surrounding equity and our ability to engage all students in this meaningful professional and educational experience. While challenges exist, there are opportunities for the physics community to successfully address them through hard work, creativity, and innovation.

Keywords

physicsastronomyundergraduate researchresearch trainingbest practicesresearch curriculum
Type
Chapter
Information
The Cambridge Handbook of Undergraduate Research , pp. 191 - 198
Publisher: Cambridge University Press
Print publication year: 2022

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References

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