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Funding for Community Colleges Tuesday, September 13, 2011 3:15-4:15 pm

Funding for Community Colleges Tuesday, September 13, 2011 3:15-4:15 pm. Presentation for the 2011 Creating Pathways for STEM Transfer Student Success By Dr. Jorja Kimball, Director Strategic Research Development Texas Engineering Experiment Station (TEES)

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Funding for Community Colleges Tuesday, September 13, 2011 3:15-4:15 pm

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  1. Funding for Community CollegesTuesday, September 13, 20113:15-4:15 pm Presentation for the 2011 Creating Pathways for STEM Transfer Student Success By Dr. Jorja Kimball, Director Strategic Research Development Texas Engineering Experiment Station (TEES) Reports to Dr. Dennis O’Neal, Deputy Director, TEES

  2. Sharing Seminar  . As higher education budgets are cut nationally, Texas has slashed scholarship funding. Therefore, the Texas Engineering Experiment Station created a workshops series targeting federal grant funding, particularly the National Science Foundation’s programs to which community colleges can submit. In this workshop, participants will work a proposal outline and strategy, with opportunity for questions.

  3. Types of Funding • Public • Federal Agencies/government • National Institutes of Health (NIH) • National Science Foundation (NSF) • State or municipal • Private • Foundations • Industry

  4. Resources for Federal Funding • Navigating NIH • Nordp.org; click resources at top • http://www.nordp.org/index.php?option=com_content&view=article&id=50&Itemid=107 • Interacting with NSF • Nordp.org; click resources at top • http://www.nordp.org/index.php?option=com_content&view=article&id=51&Itemid=107

  5. Federal Funding NIH Example • Bridges to the Baccalaureate • R25 - education projects • Increase the pool of community college students from underrepresented backgrounds who go on to research careers in the biomedical and behavioral sciences. • Promotes partnerships between community colleges with colleges or universities that offer the baccalaureate degree. • http://grants.nih.gov/grants/guide/pa-files/PAR-11-285.html

  6. Federal FundingNSF Examples • Advanced Technological Education - ATE • Science, Technology, Engineering, and Mathematics Talent Expansion Program - STEP • Transforming Undergraduate Education in STEM- TUES • Scholarships in Science, Technology, Engineering and Math - S-STEM

  7. ATE • Emphasis on two-year colleges • Focuses technician education for high tech fields • Undergraduate & grades 7-12 levels • Approx. 75-90 awards or grants funded – 3 tracks • Centers – National or Regional • Projects, including • Small grants for institutions new to ATE • Conferences & Workshops • Targeted Research on Technical Education • Workforce data on need • Has been due in October annually • No longer has preliminary proposals • http://www.nsf.gov/funding/pgm_summ.jsp?pims_id=5464

  8. ATE Supports: • Curriculum development • Professional development of faculty and secondary school (high school) teachers • Career pathways • from high school to two-year colleges • from two-year colleges to four-year institutions

  9. Amounts by ATE Category • Projects • $25,000 to $300,000 per year up to three years • Small grant up $200,000 total over three years • National Centers $5 million, four years • Regional Centers $3 million, four years • Resource Centers $1.6 million, four years • Planning grants for Center $70,000 • Research grants $100,000 - $300,000 up four years

  10. STEP • Increase the number of students (U.S. citizens or permanent residents) receiving associate or baccalaureate degrees in STEM. • Type 1 proposals: full implementation efforts at academic institutions. • Type 2 proposals: educational research projects on associate or baccalaureate degree attainment in STEM. • Baseline data needed • Projections made for increases • Great avenue for four year to partner with community colleges to increase number of STEM transfers • http://www.nsf.gov/funding/pgm_summ.jsp?pims_id=5488

  11. STEP Types: Scale, Scope, Stage • Type 1 • Max $200,000 for 2-3 years • $250,000 when 4 year partners with 2 year • Normally has 1-2 program components • Type 2 • $600,000 for 2-4 years • Addresses more than one program component • More than one institution • Type 3 • $5 million over 5 years • Large scale, research efforts • National or regional efforts

  12. TUES • Formerly Course, Curriculum, Lab Improvement (CCLI) • Improve the quality of STEM undergrad education • Potential to transform STEM education • Widespread adoption practices for student learning • Create, adapt, disseminate new learning materials and teacher strategies on teaching and learning • Transfer & dissemination of instructional materials • Facilitate adaptation at other sites • Prepare K-12 teachers • Conduct research on STEM teaching and learning • http://www.nsf.gov/funding/pgm_summ.jsp?pims_id=5741

  13. TUES • Project Components (proven) • Creating learning materials & strategies • Implementing new instructional strategies • Developing faculty expertise • Assess & evaluate student achievement (learning) • Conducting research on undergraduate STEM education • Note project features list

  14. All proposals to NSF • Need to address Merit Review Criteria • Intellectual Merit • Advancing knowledge • Includes emphasis on support of potentially transformative concepts • Broader Impacts • Examples http://www.nsf.gov/pubs/gpg/broaderimpacts.pdf • Note if other criteria listed specific to rfp

  15. SPECIFIC EXAMPLE S-STEM

  16. Preparing a Proposal for the National Science Foundation Scholarships in Science, Technology, Engineering, and Mathematics(S-STEM) Thanks to Margaret Hobson, PhD, Assistant Director, SRD, for her initial development and help with this section.

  17. S-STEM • Scholarships for • Academically talented US Citizens • Financially needy students • Enabling entry into workforce following completion of STEM • Associate • Baccalaureate • Graduate-level degree in science and engineering • http://www.nsf.gov/funding/pgm_summ.jsp?pims_id=5257

  18. S-STEM • Up to $600,000 for five years • 5% administrative allowance • 10% student services allowance • Annual budget limited $225,000 • From Congressional set-aside H1B visa fees • Generally due mid August • Letter of Intent Optional but suggest do

  19. S-STEM Purpose • Recruit • Retain • Transfer • Graduate

  20. Need for Community College S-STEM Projects

  21. S-STEM Expectations • Improved educational opportunities for students • Increased retention of students to degree achievement • Improved student support programs at institutions of higher education • Increased numbers of well-educated and skilled employees in technical areas of national need

  22. Eligible Disciplines • Biological sciences (except medicine) • Physical sciences • Mathematics • Computer and information sciences • Geosciences • Engineering • Technology/technician • Science-based agriculture

  23. Scholarship Size • Up to $10,000 per student per year • Based on financial need • Provide student financial need data • FAFSA required • Based on cost of attendance • Details and citations

  24. Who Can Submit • One per college/school that awards degrees in an eligible field each year • Science • Engineering • Geoscience • Computer Science • Agriculture Science (in eligible fields) • One per community college each year

  25. Student Characteristics • Academic potential or ability • Financial need (as defined by Dept. of Ed) • Full time students • US citizens or • Aliens admitted as refugees • Permanent residents • Natural student cohort • Single major • Take classes together • Participate in activities of common interest

  26. Parts of Proposal • Cover page (PI and up to 4 co-PIs) • Project Summary (1 page) • Project Description (15 pages) • References Cited • Biographical Sketches • Budget • Justification

  27. Proposal (continued) • Facilities • Project Data Form • Data Management Plan • Postdoctoral Researcher Mentoring • Supplementary Documents

  28. Project Summary • One page (~300 words) • Number of scholarships • Discipline area(s) • Objectives • Student • Recruitment • Selection • Support • Career Placement • Intellectual Merit • Broader Impact

  29. Project Description Note outline or template becomes the title of each slide

  30. Results from Prior NSF Support • Existing or prior CSEMS/S-STEM • Data, data, data • NOT just how many • Diversity • What happened to CSEMS students

  31. Project Objectives and Plans • Specific objectives • Recruiting • Retaining • Address local needs • Plans to • Select students • Encourage success • Support workforce or continued studies

  32. Significance of Project and Rationale—Data, data, data • Student demographic information • Number of majors and number of graduates per year • Overall enrollment and retention • Institution • Programs • Rationale for the number of scholarships • Workforce needs (citations) • Rationale for scholarship amount requested (cost of attendance)

  33. Activities on Which the Current Project Builds • Existing support structures • Data • Other scholarship programs • Data • Support structures that will be added* • Details • Based on research (references) *Included in 10% allowed for Student Support

  34. Project Management Plan* • Led by PI • Specific roles for key personnel • Strategic plan • Logistics • Mechanisms for administering scholarships • Reporting and records *Included in 5% allowed for administration

  35. Student Selection Process and Criteria • Criteria for selection • Multiple indicators of merit and likely success • GPA • Placement tests and other scores • Motivation • Time management skills • Communication skills

  36. Student Selection Process and Criteria (cont’d) • Methods to increase participation of underrepresented groups • Details • Research citations • Letters of partnership (in supplementary docs)

  37. Student Replacement Plan • How to maintain eligibility • GPA • Course load • Total semesters of support • Probation semester allowed • How students are replaced • Ineligible • Graduate or transfer

  38. Student Support Services and Programs* • Examples • Mentoring by faculty and industry • Academic support (tutoring) • Industry experiences or internships • Community building (citations) • Professional meetings and conferences • Access to appropriate technology • Career counseling and job placement • Based on research and/or prior experience • Citation(s) *Included in 10% allowed for Student Support

  39. Quality Educational Programs • External accreditations • Student performance data • Percentage of enrolled students who are retained in targeted degree • Percentage of students who continue their education at higher degree levels • Data on student placement in employment or further higher education upon graduation

  40. Assessment and Evaluation* • Annual reports to NSF • Feedback loop for project management • Student progress • Larger impact on department/program • Evaluation of programmatic components *Included in the 5% allowed for Administration

  41. Dissemination • Define audience • Within your institution • Other institutions • Employers • Define mechanism • Board meetings • Conferences

  42. Special Considerations • PI must be teaching faculty • Team can include advisors, financial aid, support services • Other faculty involved • Show faculty involvement

  43. Naturally Occurring Cohort • Same majors/same department • One major or closely related majors • Sharing classes • Participating in common activities • Housing • Shared study space

  44. Support Structures • Academic support • Future professional success • Active learning community • Existing or new • Explain in detail • Research citations

  45. Enhancements • Research opportunities • Serving as mentors/tutors • Internships • Must be optional

  46. Other Proposal components

  47. References • Must be cited in the proposal • Institutional data source (URL goes here) • Workforce data source • References from RFP • References about student support

  48. Biosketches • Maximum 2 pages • Senior Personnel • (a) Professional Preparation (BS-PhD)(b) Appointments (reverse order)(c) Publications (up to 10)(d) Synergistic Activities (up to 5)(e) Collaborators & Other Affiliations • Collaborators and Co-Editors (48 months) • Graduate Advisors and Postdoctoral Sponsors • Thesis Advisor and Postgraduate-Scholar Sponsor

  49. Budget • Number of eligible students • Amount of need • How level of scholarship determined • Broad definition of allowable expenses • Should be enough to allow students to be full-time and minimize outside work

  50. Budget • Up to 5 years • First award expected Fall semester 2013 • Maximum grant period 60 months • Scholarships shown as Participant Support Costs • Can include faculty summer salary* • No indirect • 5% administration allowance • 10% student support * Included in 5% Administration allowance or 10% student support

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