Educators Certificate: STEM in the Public Interest
Eliza Reilly, SUNY at Stony Brook; Davida Smyth, New School University; Jay Labov, National Academies of Sciences, Engineering, and Medicine
Description
Program title: Educators Certificate: STEM in the Public Interest
Program Description: Our team aims to create a certification for STEM educators that applies the ideals and strategies of SENCER (Science Education for New Civic Engagements and Responsibilities) and adds practical professional development in pedagogy, science communication, and community collaboration. SENCER courses and programs use civic problems and big interdisciplinary public challenges (e.g. infectious disease, climate change, etc) with student-centered pedagogy to teach rigorous foundational knowledge while building civic awareness. Because SENCER courses take a problem-based, systems approach to learning, they inevitably engage the humanistic and social science knowledge, as well as meta-knowledge and skills, that learners need to be scientifically informed civic agents in their communities. The certificate program will help instructors teach STEM content “through” pressing social and civic problems of direct relevance to local communities by providing: course/program design guides, student-centered pedagogical training, grounding in principles of effective science communication and informal science learning, and the development of collaborative opportunities with community-based STEM educators. While the primary audience is all STEM educators, the certificate is aimed at Non-Tenure Track (NTT) and adjunct faculty who may lack access to institutional professional development and training (PD). The goal is to provide STEM educators with transferable pedagogical skills for teaching in a wide variety of contexts, as well as tools for achieving broader impact in their educational practices by applying their skills and knowledge to immediate community needs, and in both formal and informal venues throughout the STEM learning ecosystem.
Goals of the Program
The goal is to provide professional development for a sector of formal educators who have been increasingly excluded from PD opportunities at the institutions they work in, or who find themselves with severely limited career prospects in higher education, a trend that has accelerated during the COVID-19 crisis (See Article in CHE about the impact of COVID on the academic workforce). The certificate will offer STEM educators, particularly NTT faculty and adjuncts, recent PhDs who are in the job market, and the anticipated population of early retired faculty, with guidance, mentoring, and tools for achieving broader civic and social impact in their educational practice by applying their skills and knowledge throughout the STEM learning ecosystem and in the service of the immediate needs of their communities. The SENCER community is composed of Higher Ed, K12, and informal educators and has active collaborations with most of the key STEM reform initiatives in both formal and informal learning. An advisory and assessment group of national experts in curriculum design, student-centered learning, inclusive teaching, science communication, and community learning, will oversee the development of both the curriculum and assessments and evaluative rubrics for the certificate. We anticipate that our certificate will be of value to anyone wishing to expand their knowledge of engaged, student-centered, and relevant STEM education that serves the needs of learners and their communities. Certificate holders will have the capacity to leverage their skills and assets as educators in a variety of new and novel contexts.
Logistics
We are investigating the platform that we will use to deploy our certificate. We are planning to apply for funding that would enable us to offer our certificate during the developmental, pilot years free of charge. Experts in pedagogy from within SENCER will be recruited to help develop the modules and we will supplement with materials in additional areas such as the changing educational landscape and how to integrate policy and legislation by inviting nationally recognized experts from outside of SENCER to contribute as well. While the National Center for Science and Civic Engagement will offer the certificate, we will partner with our SENCER affiliated institutions to recruit a pilot cohort who are actively teaching STEM courses. Our certificate will be offered in a hybrid format, utilizing asynchronous modules along with synchronous mentoring and guidance modeled upon existing mentoring networks such as the NSF Funded PALM network, QUBES/Bioquest Faculty Mentoring Networks, or the Faculty Guild. Our steering committee and evaluation team will assess our project regularly throughout the pilot period and we will determine the efficacy of our implementation at several points by working with our partner SENCER institutions and leveraging their faculty assessment protocols.
The SENCER, Science Education, and Our Commitment to Anti-Racism
We are committed to ensuring that our certificate will be founded upon a framework that celebrates diversity, supports inclusion and equity, and by doing so, ensures that our community recognizes what is most relevant, urgent, and motivating to our students and their communities. We do so by
- Putting equity and social justice is at the center of our educational and advocacy work and attending closely to our own blind-spots and biases in choosing the framing, language, and strategies we use;
- Listening to our colleagues who are Black, and those who work with communities of color, to make sure that our work is truly meeting their needs and supporting the success of underrepresented students;
- Amplifying the voices of Black educators in our network;
- Examining the role of racism and implicit bias in the institutions and practices of science and technology, by asking tough questions. Whose work is acknowledged? What questions can be asked and who can ask them? Who benefits, and who is excluded, from the gains produced by scientific research?https://ncsce.net/sencer-science-education-and-our-commitment-to-anti-racism/
Learning Outcomes
- Learning Outcomes for Module 1 –The Educational Theory and Evidence Behind Teaching STEM Through Public Problems/Civic Questions Required Readings for Module 1.docx (Microsoft Word 2007 (.docx) 15kB Oct19 20)
Having completed Module 1 participants will be able to:- Explain in their own words, several key educational theories as they relate to the “ecosystem” of STEM learning.
- Describe current cultural, political, and economic changes that have impacted higher education in the 21st century.
- Describe several of the transformative movements, organizations, and “levers for change” that have emerged to improve learning and analyze/evaluate their long-term impact.
- Define student-centered pedagogy and identify elements of active learning in example scenarios and materials
- Using evidence, defend the value of inter and trans-disciplinary approaches in a variety of contexts.
- Demonstrate an understanding of the issues associated with inclusion, diversity, and cultural competence in STEM education.
- Learning Outcomes for Module 2 –Course or Unit Design Process (Based on workshops already piloted and existing models )
Having completed Module 2 participants will be able to:- Learner-centered design: Ensure that the tenets of inclusion, diversity, and equity were at the core of content development and pedagogical strategies. This will include an understanding of what issues are most relevant and motivating to students and their communities.
- Use the backward design approach to develop any teaching material or curriculum
- Combine backward design and the SENCER ideals by starting with a problem and designing the curriculum around the problem.
- Identify ways to engage the learner with the problem at the core of the learning experience
- Actively integrate different knowledge/skills domains and ways of thinking into their curricular materials.
- Leverage assets at their institution or community that will enhance, broaden, and anchor the learning experience and demonstrate its relevance to “real life.”
- Identify student-centered, active assessment strategies, and approaches that would measure the efficacy of the learning process.
- Once a draft is completed, use decolonizing strategies and a culturally sensitive framework to evaluate the syllabus and learning materials to ensure the tenets of inclusion, diversity, and equity are intrinsic to the learning experience.
- Learning Outcomes for Module 3 Practicum for Public Interest STEM: Identify institutional or community partners, create a “product” that extends the design principles of Module 2 (audience-centered culturally appropriate strategies and communication, integration of the knowledge domains, and community-grounded communication). NCSCE will use the network of experienced informal educators (participants in our SENCER-Informal Science Education SENCER-ISE projects) to guide certificate students through the creation of a SENCER educational product or project aimed at community members in informal educational settings. Readings for Module 3. READINGS FOR MODULE 3 STEM In the Public Interest Certificate.docx (Microsoft Word 2007 (.docx) 13kB Oct24 20)
Having completed Module 3 participants will be able to:- Know their audience (Principles of equitable partnerships and collaborations)
- Search and identify potential partners and resources with which to work or collaborate
- Co-create a product (module, presentation, intervention)
- Disseminate the product into the community
- Evaluate the effectiveness of the team and communication strategies. (We will draw on our community’s experts in developing community partnerships, as well as the leaders of our projects using indigenous knowledge to develop STEM learning opportunities in underserved and indigenous communities).
- Learning Outcomes for Module 4 Educational Leadership Skills that can be applied in both formal and informal settings: Change agency, identification of personal values and goals, career trajectories beyond TT. Readings for Module 4: READINGS FOR MODULE 4 STEM in the Public Interest.docx (Microsoft Word 2007 (.docx) 13kB Oct24 20)
Having completed Module 4 participants will be able to:- Identify their professional and personal assets and how to leverage and deploy these assets in a variety of contexts in higher education and in the wider STEM learning ecosystem.
- Tackle areas of weakness, recognize opportunities for growth and professional improvement, as well as misalignment between personal goals and professional practice.
- Reflect on personal values and aspirations, and how they are manifested in educational practice.
Assessing Program Outcomes
- As modules will be administered using an online modality, we will integrate questions and quizzes both during and after each module. These questions will need to be answered correctly before the participants will be able to move on to the next module.
- As most of the modules will involve developing and using novel approaches to pedagogy and teaching, our formative assessment will involve the development of a reflective ePortfolios that also features exhibits of assignments and materials developed during the modules. The ePortfolio will serve as the formative assessment for all 4 modules of the certificate. SENCER has many examples of ePortfolios being used by students and faculty alike. (Monica Devanas, Director of SENCER Mid-Atlantic is a national expert in e-Portfolios for faculty development)
- A rubric will be developed (based upon the AAC&U VALUE rubrics) that will assess the integration of the SENCER ideals and philosophy throughout the participant’s ePortfolio.
- We will assist the participants in generating a pre- and post-teaching philosophy statement – this will be a capstone assignment for Modules 1 and 2, and will be revisited in Module 4 as part of the development of values-based academic leadership skills.
- Assessment strategies for Module 3 will be drawn from our experts in developing and assessing equitable and effective community learning partnerships (SENCER-Informal Science) and from our Indigenous knowledge project where community members, students, and faculty co-design community-based STEM learning experiences that are culturally relevant and respectful.
- Some measure of civic and scientific literacy assessment – concept inventory-type assessment measure. This will address if the participants themselves have transformed their own understanding of science learning as a lifelong endeavor with critical implications for civic life. Module 4 will also use an ePortfolio to document a self-assessment of educational leadership experience, values, and philosophy in the context of current disruption and change in the learning ecosystem.
Demonstrative Program Element
Our program element is Module 2, which is the origin and core strategy of the SENCER approach. While it is framed as a “course” design for an undergraduate learning context, it has been adapted for K-12 (using NGSS criteria) and for informal learning experiences. The key strategy is backward design starting with the civic or social problem (rather than the disciplinary knowledge goals). SENCER has run curriculum design workshops using this strategy for over 20 years and has a library of examples and resources using different civic challenges (public health, environment, etc) different learning contexts, and a range of disciplines.
Course Design Template for Module Two of our Certificate in STEM in the Public Interest
Eliza Reilly, SUNY at Stony Brook; Davida Smyth, New School University; Jay Labov, National Academies of Sciences, Engineering, and Medicine
This product element will focus on Module 2, the Creation of a course or Module that exemplifies the SENCER “systems” approach of teaching foundational (STEM disciplinary) knowledge “through” unsolved and pressing civic problems that require exploration of all the “domains” (humanistic, meta). The full 4 module certificate curriculum is on the “final product” page for Team 13, but Module 2, which focuses on creating a SENCER course, module, or learning experience, is the lynchpin of the certificate.
Abstract
One of the hallmarks of SENCER style pedagogy is the development of learning experiences using a backward design framework that centers the learning around a wicked, unsolved public problem, either local, national, or global, of direct interest and relevance to the learner. While SENCER workshops focus on the scientific aspect and STEM learning potential of problems, they are specifically trans-disciplinary and have welcomed designers from a variety of disciplines (from Art and English to Chemistry and Mathematics) and from academic programs across the university such as the libraries and offices of experiential learning and civic engagement. Lastly, we identify ways to engage with the public and the community through outreach activities. By centering learning around a common problem and engaging with transdisciplinary designers and the larger community, a rich, engaging, and impactful learning experience emerges.
Module 2
This module will feature:
- An overview of the SENCER approach (Science Education for New Civic Engagements and Responsibilities)What is SENCER.pptx (PowerPoint 2007 (.pptx) 3.5MB Oct24 20)
- A primer on Inclusive Teaching.
- The Course or Unit Design Process (Based on two-day workshops already piloted and a design strategy summarized in this youtube video and this Designing a SENCER learning module.pptx (PowerPoint 2007 (.pptx) 370kB Oct24 20)PPT
- We anticipate that participants will be coming from a variety of backgrounds and involved in diverse learning environments. This process works with courses or modules in all scenarios from K12 up to higher ed and in informal settings and has been adopted by SENCER for our course development.
- Backward design starting with the civic/public problem and identifying the Civic Engagement, Foundational, Humanistic, and Meta-Knowledge Outcomes.
- This is the essence of SENCER and the SENCER philosophy. Participants will have completed the first module and this will build upon that module and demonstrate the impact of a well-designed learning experience that is tied to the SENCER philosophy.
- Overview of strategies for assessing complex outcomes (affective, dispositional, as well as knowledge and skills)
- We will introduce a variety of ways to measure and document student progress towards the learning outcomes. Beyond exams and quizzes, we will focus on ways students can creatively show and demonstrate their learning in unique and trans-disciplinary ways.
- Deep dive into SENCER Models as exemplars in a range of disciplines, and curricular contexts, including majors, K-12, Informal learning—Course Models that are organized as course ePortfolios. Each model details how STEM learning outcomes are achieved through multi-disciplinary exploration of the problem and includes assignments, and assessment strategies for both content knowledge, dispositions, and skills.
- We will have the participants engage with the model series and evaluate and critique the models. They will be able to pull useful examples of strategies and techniques that may work in their contexts.
Learning Outcomes for Module 2 –Course or Unit Design Process (Based on workshops already piloted and existing PD strategy ) In Module 2 participants will work, either individually or in teams, to produce a course or module for a formal classroom, or a learning experience for informal STEM learners.
Having completed Module 2 participants will be able to:
- Learner-centered design: Ensure that the tenets of inclusion, diversity, and equity were at the core of content development and pedagogical strategies, including an understanding of what issues are most relevant and motivating to students and their communities. This will be done in line with the SENCER commitment to anti-racism.
- Use the backward design approach to develop any teaching material or curriculum
- Combine backward design and the SENCER ideals by starting with a problem and designing the curriculum around the problem.
- Identify ways to engage the learner with the problem at the core of the learning experience
- Actively integrate different knowledge/skills domains and ways of thinking into their curricular materials.
- Leverage assets at their institution or in their community that will enhance, broaden, and anchor the learning experience and demonstrates its relevance to “real life.”
- Identify student-centered, active assessment strategies, and approaches that would measure the efficacy of the learning process.
- Once a draft is completed, use decolonizing strategies and a culturally sensitive framework to evaluate the syllabus and learning materials to ensure the tenets of inclusion, diversity, and equity are intrinsic to the learning experience.
Assessment and Evaluation Strategies
Our assessment and evaluation strategies will be implemented asynchronously and synchronously. The development of the course or unit will use a scaffolded approach, and a backward design framework, allowing the assessment of the materials to occur at several stages. A template will be available for the participants as well as examples at each stage along with the rubrics that will be used to assess each component. The rubric we will use for assessment is the SENCER course design rubric, the same one that is used to evaluate the model courses.
We have long used a mentorship model at SENCER which engages new participants with a community of leadership fellows. Leadership fellows have worked with faculty teams at our institutes and in our workshops. For this module, we anticipate having a system in place of asynchronous mentoring and feedback. We will leverage our experiences of working in an online environment (NSF PALM, Faculty Guild, and QUBES). As participants develop their materials and upload them, they will receive feedback and suggestions from a select group of fellows. We will also leverage peer mentoring. Using discussion boards and forums, participants will receive feedback from other participants as they are taking the course. Once we have completed our pilot years, we will be in a position to welcome certificate holders to act as mentors for future participants.
Once our participants have completed their module/course, they will upload them to their ePortfolios. ePortfolios have been proven to improve practitioner self-assessment and meta-cognitive understanding of their own values, strengths, etc. and it is a skill/capacity that will transfer to their own educational practice. Many institutions are using ePortfolios as the mechanism to perform annual evaluations of faculty and they are increasingly being used by SENCER faculty in their own classrooms. We anticipate hosting the ePortfolios on our own platform and highlighting our certificate holders on the NCSCE website.
Linking Disciplinary Learning and Civic/Social Issues (addressing the knowledge domains)
This is where we would add the three-domain outcomes (Foundational, Meta, Humanistic)–SENCER strategies for both course and program design take systems- and trans-disciplinary approaches. We will use a course template for the design process in Module 2 that will guide instructors in creating learning experiences that integrate all these domains. Here is an example of COVID-19 and Nuclear Waste, but all civic challenges can be approached this way (food security, environmental racism, sea-level rise in coastal communities). We have 55 models to use as guides, but faculty come up with their own
Civic/Public Problem | What Foundational knowledge is needed to understand the problem? | What Humanistic/Social/Cultural knowledge is needed to understand the problem? | What assignment would demonstrate the participant’s ability to synthesize/communicate/act on the knowledge? |
---|---|---|---|
COVID-19 transmission in the US | Virology, epidemiology | History of pandemics, US political culture, behavioral psychology around risk and identity | Design a Poster or Public Information Campaign for Mask wearing or vaccine aimed at a specific community |
Nuclear Waste dumping on indigenous land | Nuclear Chemistry, Radiation | History of Native/US Gov. Environmental policy and race, community and cultural impact from the indigenous perspective | Designing culturally sensitive interventions/remediations to support the affected community and heighten public understanding and policy advocacy |
Here are some other examples of integrative course design organized in a course portfolio presentation and which teach science alongside humanistic/cultural/social knowledge and meta-knowledge and skills. These will serve as models for Module 2 products:
- Ecotoxicology (Sharon Pochron, Stony Brook University): http://ncsce.net/ecotoxicology/
- Virology (Tammy Tobin, Susquehanna U): http://ncsce.net/virology/
- Pollinators (Susan Cusato, Southern Connecticut State): http://ncsce.net/pollinators-a-case-study-in-systems-thinking-and-sustainability/
- Stem Cells and Social Justice (Katayoun Chamany, The New School): http://ncsce.net/stem-cells-and-social-justice/
This material is based upon work supported by the National Science Foundation under Grant #1935479: Workshop on the Substance of STEM Education. Any opinions, findings, and conclusions or recommendations expressed in this material are those of the author(s) and do not necessarily reflect the views of the National Science Foundation.