The student will be able to:

1. Evaluate the current state of equity and inclusion in science and in science education
2. Compare various social phenomena related to equity and inclusion in the sciences
3. Appraise physiological responses in environments lacking inclusivity
4. Construct evidence-based interventions to enhance equity and inclusion in the sciences
5. Assess their own own identities in relation to science equity and inclusion

1. Current state of equity and inclusion in science and in science education
   1. Measurement of equity and diversity in the sciences
      1. Equity gaps
   2. Significance of diversity in STEM and health science
      1. Impacts of diversity on research quality/outcomes
      2. Impacts of diversity on health outcomes/health disparities
2. Social phenomena related to equity and inclusion in the sciences
   1. Implicit bias
   2. Deficit models
   3. Stereotype threat
   4. Sense of belonging
   5. Imposter syndrome
   6. Science identity
   7. Self-efficacy
3. Physiological responses in environments lacking inclusivity
   1. Endocrine responses
   2. Neurological responses
4. Evidence-based interventions to enhance equity and inclusion in the sciences
   1. Inclusive teaching and learning strategies
   2. Role modeling
   3. Possible selves
   4. Scientific teaching
   5. Strategies for the assessment of interventions
5. Understanding one's own identities in relation to science equity and inclusion
   1. Assessment of one's own intersectional identities
   2. Assessment of one's own strategies navigating within and disrupting traditional science environments
   3. Exploration of strategies for monitoring equity and promoting inclusion in academic and professional settings

Not applicable.

Self, peer, and instructor evaluation of educational interventions developed by students
Written assignments requiring analysis of academic articles or book chapters
Reflective journals
Participation in discussions
Exams consisting of subjective and objective items
Evaluation of case studies

Lecture
Cooperative learning activities
Discussions

No textbooks exist for this one-of-a-kind a course, so course readings rely on primary sources from the research literature. This means students often read classic papers in the field that were authored more than five years ago. That said, numerous readings from within the last five years are also included.

Weekly academic articles or book chapters on equity and inclusion in the sciences, supplemented at instructor's discretion with additional readings or course reader.

The following are examples of suggested books for the course:
Palmer, Robert T., and J. Luke Wood. Community Colleges and STEM: Examining Underrepresented Racial and Ethnic Minorities. 2013.
Steele, Claude. Whistling Vivaldi: How Stereotypes Affect Us and What We Can Do. 2011.
Wood, J.L., and R.T. Palmer, eds. STEM Models of Success: Programs, Policies, and Practices in the Community College. 2014.

The following are examples of suggested academic articles for the course:
Schinske J., H. Perkins, A. Snyder, and M. Wyer. "Scientist Spotlight Homework Assignments Shift Students' Stereotypes of Scientists and Enhance Science Identity in a Diverse Introductory Science Class." CBE - Life Sciences Education. 15(3) (Fall 2016): ar47.
Tanner, K. "Structure Matters: Twenty-One Teaching Strategies to Promote Student Engagement and Cultivate Classroom Equity." CBE - Life Sciences Education. 12(3) (Fall 2013): 322-331.
Miriti, M. N. "Nature in the eye of the beholder: A case study for cultural humility as a strategy to broaden participation in STEM." Education Sciences. 9(4) (2019): 291.

1. Reading and annotation of academic articles and book chapters on STEM equity
2. Journal responses to assigned readings
3. Composition of biographical vignettes on diverse scientists
4. Composition of educational interventions aimed at enhancing STEM equity and inclusion