1 / 25

Overview

Overview. Challenges to Higher Education Physics Department A View of Physics Education Research & Development The Future. Pressures on Higher Education. Cost effectiveness Immediate relevance to student careers Entrepreneurial “Scholarship” Accountability To the public

zorion
Télécharger la présentation

Overview

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. Overview Challenges to Higher Education Physics Department A View of Physics Education Research & Development The Future

  2. Pressures on Higher Education • Cost effectiveness • Immediate relevance to student careers • Entrepreneurial “Scholarship” • Accountability • To the public • To the students • To scholarship • Decreasing value of formal education

  3. Which of these entities are familiar? • University of Phoenix • Midwest Higher Education Commission • Western Governors’ University • K-State On-Line • Open University

  4. Teaching Challenges to faculty • What content to teach • Captive audience is escaping • Accreditation Board for Engineering and Technology (ABET) • Distance education • Physics teaching is cheaper when made in Sri Lanka • For-profit universities • Will Wal-Mart sell physics? • Diversity in physics students is still lacking • Physics students in general are still lacking

  5. Which of these are familiar? • Bayh-Dole Act (1980) • Scholarship Reconsidered • The Entrepreneurial University

  6. Research Challenges • Get Patents not Grants • Contract research with private companies • Interdisciplinary nature of cutting edge research • Lack of domestic graduate students • Lack of diversity among students/faculty

  7. Research Challenges • “…give the familiar and honorable term ‘scholarship’ a broader meaning…” • Discovery • Integration • Application • Teaching • Ernest Boyer

  8. Major Changes Have Happened 1946-50 • GI -Bill • Changed the nature of the student body • Research Funding • Federal to universities in large amounts The Modern University is younger than Modern Physics.

  9. Scholarship of Teaching-Learning • Frame questions about teaching-learning • Design systematic inquiry that address these questions • Use the results to develop new teaching-learning techniques • Apply the same type of effort to issues of teaching & learning as one does to other scholarly activities.

  10. Physics Education Research & Development • Scholarship of physics teaching & learning • Research on how student learn & don’t learn • Build models of student learning • Use psychological research to create models of instruction

  11. Focus on Physics & Students • Thorough understanding of physics • Apply methods of social sciences • But reinvent many wheels including square ones • Our students are not young versions of us • Outcome improves the methodology of teaching and teaching evaluation* • Physics education research is greatly enhanced by its presence in the physics department* *APS Board May, 1999

  12. Building Conceptual Understanding • Determine students existing knowledge • Use models of instruction or intellectual development • Challenge what needs to be changed • Build on the positive components • Provide applications • Social and collaborative component to learning • Different learning options • Test - revise - test -revise • Until the grant money runs out

  13. How Technology Helps • Real world explorations & applications • Measurements • Physics of Sports; Bicycle Project • Visualizations of complex concepts • Can teach concepts to less sophisticated students • Visual Quantum Mechanics • Multiple Learning paths • Large databases • Physics InfoMall

  14. What’s Changing • Models of Student Learning • Structure of Physics as a discipline • How students make sense of physics • Technology • Distance Education • Dealing with information overload • Neural networks, Genetic algorithms, Visualization • Focus on what’s right • Student “misconceptions” - something to build on • Appeal to a broad range of students

  15. Teacher Education • “… the physics community [must] take an active role in improving the pre-service training of K-12 physics/science teachers …” • “Strengthening the science education of future teachers addresses the pressing national need” • AIP, APS, AAPT, AAS, ASA (September, 1999)

  16. The difficulty with physics education is that the problems never stay solved. Melba Phillips

  17. Job Openings - 2000Posted at AIP or Physics Today with Physics Education Research listed explicitly • 6 Ph. D. Granting • 3 only physics education research need apply • 2 one of several specialties listed • 1 joint with College of Education • 15 Four-year Colleges • 1 Community College • 1 High School • Source: Jeff Saul, NC State

  18. KSU Physics Education Group • 1 Professor • 1 Administrative Assistant • 2 Post docs • 3 Physics Ph.D. Students • 2 Science Education Ph.D. Students • 3 Undergraduates • 1 Research Assistant • 3 Programmers • 1 Visiting Ph.D. Student • Director of Undergraduate Labs • Educational Technologist

  19. Post docs & PhDs Northern Iowa (2) Clarion Air Force Academy American University Norfolk State Malaysia Institute Tech. State of Washington Georgetown Catholic Priest MS High school teachers (4) College Lab Managers (2) Grad Student with JRM Lear Jet At Home Unknown Where do they go?

  20. Present Grad students (5) 3 female 4 domestic Average time not in school after BS: 4 years Present & Former Post docs (6) 1 female 2 domestic Average time from start of post-doc to start of real job: 1.9 years Past Grad Students (14) 5 female 1 African-American 1 Hispanic 10 domestic Average time not in school after BS: 5 years Group Demographics

  21. Interactions • Department faculty • Collaborate on teaching & educational research • Short term or long • University • Interdisciplinary by its nature • Art, Education, Provost, Biology, Chemistry, Geology • State • KU, 4 Community Colleges, Several school districts • Beyond • 4 US Universities; 1 US Community College • 6 European Universities

  22. Challenges for the group • Demographic firecracker: 58 • Faculty burn out • Lack of faculty “life insurance” • Focus of KSU College of Education • Funding in three year cycles • No renewals • Always a new project • Increasing competition for Grant $$ • Taught our students and post docs too well • Job Market too good • Unable to keep post docs

  23. Future • Minimum • Hire Assistant Professor by Fall, 2001 • Sensible • Associate/Assistant Professor by 2001 • Assistant /Associate Professor by 2003 • Better (Gray’s Plan Slightly Modified) • Associate /Assistant Professor by 2001 • Assistant /Associate Professor by 2003 • Replace DZ upon his retirement

  24. What will we gain The scholarship of teaching draws synthetically from the other scholarships. ... It is a special case of the scholarship of application and engagement, and frequently entails the discovery of new findings and principles. Lee Shulman, President, The Carnegie Foundation

More Related