Faculty Information

I teach research in my course. Am I听teaching a CURE?

Does your course conduct research with no known outcome?

Does the research allow for failure or inform students to prepare for the unexpected?

Does the course produce novel data that can be useful to others in the field?

If yes, then your course is likely a CURE.

Distinguishing between research- and inquiry-based courses is an important component of defining the type of course you are teaching. Courses in all fields can fit into one or the other category. Both research- and inquiry-based courses engage students in formulating questions that they investigate through various means that may include observation, surveys, writing assignments, or community-based projects. 听They may be offered as introductory-level courses to pique students鈥 interest in a field or as upper-division courses as a culmination of the didactic training students receive through a department鈥檚 curriculum. However, research-based courses also include the intellectual contribution of information. 听The original contributions made by students vary by field of study and can include novel interpretation of current information, generation of data, and creative endeavors. 听These experiences are not limited to STEM fields.听Learn more about Humanities Research听

Why should I teach a course-based undergraduate research experience (CURE)?

Integrate your research in the course you are teaching.听

Increase your chances of publishing original research.

听Engage with students and see them develop a more authentic and rewarding relationship with research.

Although the impacts of CUREs on students have been widely studied, the benefits to faculty have only recently been appreciated. 听Faculty who teach CUREs report increased integration of their own research in their teaching, recognition from departments and institutions, and opportunities for publication. 听They also find that teaching CUREs gives them more enjoyment and reward due to intellectual stimulation and increased student engagement (Shortlidge, et al., 2017).

Pamela Harvey (EBIO) discusses her experience teaching CURE at CU.

Alexandra Jahn听
ATOC4500: Numerical Methods and Modeling
ATOC3700: Research Experience in ATOC
alexandra.jahn@colorado.edu

Katja Friedrich

katja.friedrich@colorado.edu

Sebastian Schmidt 鈥 ATOC4500
ATOC4500: Scientific Programming and Data Visualization
sebastian.schmidt@lasp.colorado.edu

Amy Palmer听


amy.palmer@colorado.edu

Martin Boileau

martin.boileau@colorado.edu

Lisa Corwin 鈥 EBIO (no number yet)
Lisa.Corwin@Colorado.EDU

Nancy Emery
EBIO 4600/5600 Evolutionary Ecology
nancy.emery@colorado.edu

Nolan Kane

nolan.kane@colorado.edu

Katharine Suding

suding@colorado.edu

Jason Gladstone

jason.gladstone@colorado.edu

Amanda Carrico

amanda.carrico@colorado.edu

GEOL 3181 -听Microbial Planet Laboratory
Contact:听sebastian.kopf@colorado.edu

Syllabus

Amelia Brackett Hogstad

amelia.brackett@colorado.edu

Vilja Hulden

vilja.hulden@colorado.edu

David Shneer
HIST1830 - A Global History or the Holocaust and Genocide
David.Shneer@colorado.edu

Stephen Voida

svoida@Colorado.EDU

Christopher Lowry

Christopher.Lowry@colorado.edu

Christy Fillman


Christy.Fillman@Colorado.EDU

Alison Vigers

alison.vigers@colorado.edu

Pamela Harvey


Pamela.Harvey@Colorado.EDU

Alison Vigers

alison.vigers@colorado.edu