1 / 15

Modeling across the Curriculum The STEM Disciplines

Modeling across the Curriculum The STEM Disciplines. What are some key issues? How is the community responding? What curricular changes/ improvements are needed?. Peter Turner SIAM Vice President for Education Dean of Arts & Sciences, Professor of Mathematics and Computer Science,

sara-craig
Download Presentation

Modeling across the Curriculum The STEM Disciplines

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Modeling across the CurriculumThe STEM Disciplines What are some key issues? How is the community responding? What curricular changes/ improvements are needed? Peter Turner SIAM Vice President for Education Dean of Arts & Sciences, Professor of Mathematics and Computer Science, Clarkson University pturner@clarkson.eduvpeducation@siam.org * NSF/EHR/DUE Awards 1206230 & 1352973, Education and Human Resources Directorate The First Two Years of College Math: Building Student Success

  2. Key issues: Some of them • Preparation & Readiness for STEM majors • CU STEM admissions data • Outdated curricula and delivery methods • PCAST Engage to Excel • Math 2025 • Workforce issues • Very few “future math profs” in large core math classes • Teach the students we have, not the ones we dream of • INGenIOuS • Student “demands” for relevant education • BUT with care over “training vs. education” The First Two Years of College Math: Building Student Success

  3. STEM doesn’t happen The First Two Years of College Math: Building Student Success

  4. So, what is being done? • Multiple initiatives in the Math Sciences community • Modeling across the Curriculum • TPSE-Math • MAA-led Common Vision for Undergraduate Math in 2025 • CSE Future Workshop • Multiple curricular reports: • CUPM Guidelines (2015?) Greater emphasis on applied topics than previously • SIAM Report on Undergraduate CS&E (2011) • SIAM Report on Applied Math undergraduate programs (2014) • Future Directions in CSE Workshop, August 2014 • INGenIOuS The First Two Years of College Math: Building Student Success

  5. So, what is being done? • Changing nature of both Math majors and of “service” courses • Modeling, computation, statistics • Project-based learning • Teamwork, etc. • SIAM Undergraduate Research Online, SIURO • MAA-SIAM PIC (preparation for Industrial Careers) Math project • More internship opportunities • Implications for K-12 and Teacher Preparation The First Two Years of College Math: Building Student Success

  6. Modeling across the Curriculum • Two SIAM-NSF Workshops • August 30 -31, 2012 at NSF • January 12- 14, 2014 at ASADraft report near complete • Engage and Keep Young People in STEM, • from K12 through Undergrad (and Grad) Studies, and into the Workforce The First Two Years of College Math: Building Student Success

  7. MaC I Recommendations Four categories • Expanding modeling in K-12 • Development of a high school one semester, or one year modeling course (with stratified content) • Develop modeling-based undergraduate curricula • Develop a repository of materials for math modeling instruction and understanding The First Two Years of College Math: Building Student Success

  8. MaC II • Three primary topic areas: • Early grades (Rachel Levy coordinating) • Middle/High School (Katherine Socha) • Undergrad curricula (Jeff Humpherys) • MaC II process: • Developing clear list of deliverables • Intro from Joan Ferrini-Mundy • Keynote on Math2025, Panel on opening afternoon advance this process The First Two Years of College Math: Building Student Success

  9. MaC II Panel • Used to “set the scene” and review some of the discussions at MaC I: • Definition of modeling • Stand alone vs. infusion • Setting goals for MaC II sessions • The role of algorithms • Modeling at different educational levels and in different disciplinary contexts • Assessment Panel members: Jeff Humpherys, Rachel Levy, Katherine SochaModerator: Turner The First Two Years of College Math: Building Student Success

  10. Discussion Topics • Programs: • Courses, Programs, Degrees, Summer Experiences, Internships • “Infusion” or stand alone? (“Trojan mice”) • Materials: • Books, Videos, Software, Posters, Websites, MOOCs? • Informal education (MoMath?) • Training: • Pre-service and in-service • Ways of interacting with teachers/ faculty/ TAs and students (and perhaps parents) The First Two Years of College Math: Building Student Success

  11. Some MaC II undergrad recommendations* • Proposal for NRC Study/ReportResponse to Joan Ferrini-Mundy’s Challenge to think about effective ways to educate students at the crossroads of: • Mathematical modeling • Data science • Information science • Computational science • Computational thinking * Credit to Jeff Humpherys for some of this content The First Two Years of College Math: Building Student Success

  12. Modeling and the Pipeline:Attracting and retaining STEM students A study/paper on recommended topics to address: • How to achieve the 34% increase in Engage to Excel. • Multiple entryways?A non-calculus track for freshman modeling? • Diversity • Focus on Jobs! • Teaching needs to match what we expect The First Two Years of College Math: Building Student Success

  13. Two Recommendations for Professional Organizations • Form a SIAM Activity Group (SIAG) in Applied Mathematics Education • Done!SIAG Ed was approved at SIAM Council and Board in JulyBegins operation in January 2015 • Plans for First SIAG Ed conference to coincide with, and broaden, MaC III • SIAM Education VP needs to continue to work with other VPs and other societies • New VP for Education starts in January 2015, Rachel Levy The First Two Years of College Math: Building Student Success

  14. What are “new” key areas for undergrad math? A modern math sciences undergraduate education should include at least some introduction to • Algorithms and Analysis (Data Structures, Approximation Theory, Numerical Analysis, Computational Science) • Distributed Computing and Big Data (MPI, Hadoop, noSQL) • Data Analytics (Regression, Estimation, SQL, R/Python) • Modeling with Probability and Stochastic Processes • Bayesian Statistics and Machine Learning • Dynamical Systems (ODE, PDE, SDE) • Optimization and Control The First Two Years of College Math: Building Student Success

  15. Why? Actual Job from CareerBuilder.com The First Two Years of College Math: Building Student Success

More Related