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Evolving Relationships Between Two- and Four Year Colleges and Universities in
STEM Education
THE NATIONAL ACADEMIESNational Academy of Sciences
National Academy of Engineering Institute of Medicine
National Research Council
Jay Labov National Academy of Sciences
National Research Council Washington, DC
[email protected] http://nas.edu
New Hampshire STEM ConferenceManchester, NH, November 27, 2012
Evolving Relationships Between Two- and Four Year Colleges and Universities in
STEM Education(It’s Not Your Parents’ Community College Anymore)
THE NATIONAL ACADEMIESNational Academy of Sciences
National Academy of Engineering Institute of Medicine
National Research Council
Jay Labov National Academy of Sciences
National Research Council Washington, DC
[email protected] http://nas.edu
New Hampshire STEM ConferenceManchester, NH, November 27, 2012
Premise 1:
Improving Undergraduate STEM Education is Not Rocket Science
It’s a LOT harder!
“A good hockey player plays where the puck is.
A great hockey player plays where the puck is going to be.”
Wayne Gretzky
Premise 2:
Learning Goals for This Presentation:
• Briefly review several recent national reports on the improvement of undergraduate education in STEM and how they might inform your discussions.
• Explore the implications of the Memorandum of Understanding between the Community Colleges and University of New Hampshire Systems.• Examine the evolving dynamics between 2- and 4-year institutions of higher
education
• Appreciate the growing influence of K-12 education on what you do and your role in influencing K-12 education to increase the number of college-educated STEM graduates.
• Recognize that you are not alone!
6
Briefly review several recent national reports on the improvement of undergraduate education in STEM and how they might inform your discussions.
72012
FUTURE NEEDS: 1 million more STEM professionals in the next decade than the U.S. will produce at the current rate if the country is to retain its historical preeminence in science and technology.
“To meet this goal, the United States will need to increase the number of students who receive undergraduate STEM degrees by about 34% annually over current rates.”
CURRENTLY: ~ 300,000 bachelor and associate degrees in STEM fields annually in the U.S.
82012
New Hampshire’s Goals: “…increase by 50% the number of STEM educated graduates by 2020 and double that number by 2025.”
Raising the Bar: Public Higher Education in New Hampshire’s Commitment to a Highly Skilled Workforce. MOU: University System and Community College System of NH
92012
Increasing retention of STEM majors from 40% to 50% would generate three-quarters of the 1 million additional STEM degrees over the next decade.
Many student who abandon STEM majors perform well in their introductory courses and would make valuable additions to the STEM workforce.
Fewer than 40% of students who enter college intending to major in a STEM field complete a STEM degree.
102012
Retaining more students in STEM majors is the lowest-cost, fastest policy option to providing the STEM professionals … and will not require expanding the number or size of introductory courses, which are constrained by space and resources at many colleges and universities.
But retention for WHAT?
11
What undergraduates will be experiencing during THEIR lifetimes…
STEM Education and Our Economic Future
“If I take the revenue in January and look again in December of that year, 90% of my December revenue comes from products which were not there in January.”
Craig Barrett, Chairman of Intel“Rising Above the Gathering Storm” (NAS, NAE, and IOM, 2007)
"The illiterate of the 21st century will not be those who cannot read and write, but those
who cannot learn, unlearn, and relearn."Alvin Toffler, American Writer and Futurist
13
1 Zb = 1021 bytes. That’s enough data to fill 75 billion 16-gigabyte-sized iPads.
Humanity Passed the 1 Zettabye Mark in 2010 (1.8Zb in 2011).
Source: http://www.marfdrat.net/wp-content/uploads/2011/02/zettabyte-100504-02.jpg
20th Century 21st Century
1 – 2 Jobs 10 – 15 Jobs
Critical Thinking Across
Disciplines
Integration of 21st
Century Skills intoSubject Matter
Mastery
Mastery ofOne Field
SubjectMatter
Mastery
Number ofJobs:
JobRequirement:
Teaching Model:
SubjectMatter
Mastery
Integration of 21st
Century Skills intoSubject Matter
Mastery
Assessment Model:
Why 21st Century Skills?A Shifting Job Market
Courtesy of Linda Froschauer
New Opportunities for Shaping THEIR Futures
The Evolving Dynamics Between Two- and Four-Year
Colleges and Universities
16
THE EMERGING HIGHER EDUCATION ECOSYSTEM
THE TRADITIONAL PIPELINE
High SchoolCommunity
College
4-Year Institution
The Workplace
High SchoolCommunity
College
4-Year Institution
THE EMERGING HIGHER EDUCATION ECOSYSTEM
NEW DIMENSIONS/OPPORTUNITIES
The Workplace
- Dual Enrollments- Teacher Education
Bachelor Students Acquiring Specific Skills
Community College 4-yr. applied
baccalaureates
Online Courses/MOOCs
????
??
?? ??
??
Summary Report of a Summit
Organized by the National Research
Council and the National Academy
of EngineeringDecember 15,
2011
http://nap.edu
CONTENTS
- Introduction - Expanding Minority Participation in
Undergraduate STEM Education - The Loss of Students from STEM Majors- Outreach, Recruitment, and Mentoring - The Two-Year Curriculum in Mathematics - Transfer from Community Colleges to
Four-Year Institutions- General Discussion
- Appendix: Effective Outreach, Recruitment, and Mentoring into STEM Pathways: Strengthening Partnerships with Community Colleges
- Appendix: Two-Year College Mathematics and Student Progression in STEM Programs of Study
- Appendix: Developing Supportive STEM Community College to Four-Year College and University Transfer Ecosystems
http://nas-sites.org/communitycollegessummit/
Download the report at:http://nap.edu
Visit the Summit Website at:http://nas-sites.org/communitycollegessummit/
New Opportunities in College and K-12 to Improve STEM Teaching and Learning
4 Strands of Scientific Proficiency
• Know, use and interpret scientific explanations of the natural world.
• Generate and evaluate scientific evidence and explanations.
• Understand the nature and development of scientific knowledge.
• Participate productively in scientific practices and discourse.
National Research Council (2007)
• Know, use and interpret scientific explanations of the natural world.
• Generate and evaluate scientific evidence and explanations.
• Understand the nature and development of scientific knowledge.
• Participate productively in scientific practices and discourse.
National Research Council (2007)
4 Strands of Scientific Proficiency
26
AP RedesignBiology, Chemistry, Environmental Science, Physics (2012-16)
• Science Panels– Big Ideas / Unifying
Themes – Enduring Understandings– Competencies– Evidence Models
(Formative Assessments)
• Evidence of Learning• The student can use representations
and models to communicate scientific phenomena and solve scientific problems.
• The student can use mathematics appropriately
• The student can engage in scientific questioning
• The student can perform data analysis and evaluation of evidence
• The student can work with scientific explanations and theories
• The student is able to transfer knowledge across various scales, concepts, and representations in and across domains
http://books.nap.edu/openbook.php?record_id=10129&page=R1
Big Ideas/ Unifying Themes of the New AP Biology Course
27
• The process of evolution drives the diversity and unity of life.
• Biological systems utilize free energy and molecular building blocks to grow, to reproduce and to maintain dynamic homeostasis.
• Living systems store, retrieve, transmit and respond to information essential to life processes.
• Biological systems interact, and these systems and their interactions possess complex properties.
Similarities in Thinking:AP Biology Redesign (2011):
• The process of evolution drives the diversity and unity of life.
• Biological systems utilize free energy and molecular building blocks to grow, to reproduce and to maintain dynamic homeostasis.
• Living systems store, retrieve, transmit and respond to information essential to life processes.
• Biological systems interact, and these systems and their interactions possess complex properties.
Vision and Change (2011)
• The diversity of life evolved over time by processes of mutation, selection, and genetic change.
• Basic units of structure define the function of all living things.
• The growth and behavior of organisms are activated through the expression of genetic information in context.
• Biological systems grow and change by processes based upon chemical transformation pathways and are governed by the laws of thermodynamics.
• Living systems are interconnected and interacting.
28
Disciplinary
Core Ideas
Crosscutting
Concepts
Sci
ence
an
d
En
gin
eeri
ng
Pra
ctic
es
Dimensions of the Framework
• Science and Engineering Practice• Crosscutting Concepts• Disciplinary Core Ideas
Science and Engineering Practices
1. Asking questions and defining problems2. Developing and using models3. Planning and carrying out investigations4. Analyzing and interpreting data5. Using mathematics, information and computer
technology, and computational thinking6. Constructing explanations and designing solutions7. Engaging in argument from evidence8. Obtaining, evaluating, and communicating information
Framework 3-28 to 31
Crosscutting Concepts
1.Patterns2.Cause and effect3.Scale, proportion, and quantity 4.Systems and system models 5.Energy and matter6.Structure and function 7.Stability and change
Framework 4-1
S5. Use mathematics & computational thinkingM6. Attend to precision
M7. Look for & make use of structure
E3. Respond to the varying demands of audience, talk, purpose, & discipline
E1.Demonstrate independence
E7. Come to understand other perspectives & cultures
S2. Develop and use models
M4. Model with mathematics
M1. Make sense ofproblems & persevere in solving them
M8. Look for & expressregularity in repeated reasoning
S1. Ask questions &define problems
S3. Plan & carry outinvestigations
S4. Analyze & interpretdata
E2. Build strong content knowledge
E4. Comprehend as well as critiqueE5. Value evidence
M2. Reason abstractly & quantitativelyM3. Construct viable argument & critique reasoning of
othersS7. Engage in argument from evidence
S6. Construct explanations & design solutionsS8. Obtain, evaluate & communicate informationE6. Use technology & digital media strategically &
capablyM5. Use appropriate tools strategically
MATH SCIENCE
ELA
Source: Working Draft v2, 12-06-11 by Tina Cheuk, ell.stanford.edu
Teacher Education and National Standards
“Not long ago, a college chemistry professor grew angry with the way her daughter’s high school chemistry class was being taught. She made an appointment to meet with the teacher and marched with righteous indignation into the classroom—only to discover that the teacher was one of her former students.”
National Research Council (1998)
35National Research Council 2000 National Research Council 2003
Insights on Confronting Tough Economic Times in Higher Education
• “It would be a major mistake for leaders to believe that their main worries are the inwardly focused challenges and politics of negotiating the campus constituency groups through an unpleasant budget realignment.
• The institutions that survive will be those that have built collaborations among internal constituencies in order to compete externally for students, faculty talent, and financial resources.” (p. 26)
* Adaptive Budgeting: Thirty-four Suggestions for Raising Revenues, Cutting Costs, Retaining Students, and Saving Jobs in Hard Times. Liberal Education. 95(3): 24-30. Summer, 2009
And Returning Full Circle:“You miss 100% of the shots you
never take.”
Great Opportunities Await!!!
Wayne Gretzky
High SchoolCommunity
College
4-Year Institution
THE EMERGING HIGHER EDUCATION ECOSYSTEM
NEW DIMENSIONS/OPPORTUNITIES
The Workplace
- Dual Enrollments- Teacher Education
Bachelor Students Acquiring Specific Skills
Community College 4-yr. applied
baccalaureates
Online Courses/MOOCs
????
??
?? ??
??