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Increasing Retention of Engineering Students using a Cohort Model Rob Twardock, P.E. College of Lake County Grayslake, IL
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Outline of Presentation What works well for retention? Research on Retention NSF Scholarship Program Details NSF funding opportunities Components of good NSF proposal Ideas for your school
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Retention Ideas Cohorts, learning communities Clubs Tutoring Active Advising $$ Faculty contact Summer Bridge ???
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Question What works well for your school to increase retention of STEM students? What doesn’t work well? What are barriers to completion? Graduation Transfer
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Brainstorming on what works well Clear connection to jobs and employers. Parternship w/industry Competitions. STEM Ambassador class to enage students. Helps create bonds Robotics First competition Connection with advisors/faculty Cohort model
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What works well (cont) Industry part of programs Scholarships – for more traditional students
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Research on Retention Need for personal relationships Use of design projects Students need validation of reasons for studying a difficult field Making a connection to discipline Tutoring connected to classroom Benefit of cohorts
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CLC’s NSF Scholarship Program Funded by National Science Foundation S- STEM program, Grant No. 0630906 Applied 2005, began 2006 1 year planning, 4 years of scholarships, 1 year extension Applied in August 2011 for next round $500,000 total over 6 years. Dedicated recruiter
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NSF Scholarship Program Details: Services to Student Up to $7,000/year for two years, plus Tutoring – by full time CLC faculty Mentoring – by professional engineers Advising – by faculty and counselors Transfer Assistance – by faculty Cohort model: work as a group
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Schedule: Weekly Activities for Scholars Common coursework Twice weekly study halls w/tutoring Frequent meetings with advisor/counselor Engineering Club activities Ongoing meeting with mentors Tracking academic performance
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Lessons Learned Counseling is critical Summer bridge difficult Financial aid process is critical path Academic success class important Study hall is the linchpin NCAA student-athlete model is appropriate Personal relationships key
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Student Testimonials
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Results 49 scholarships awarded Larger percentage of minority students in NSF cohort (65% vs 42%) Fewer numbers than proposed, but larger individual need than anticipated $5,800 per student per year ~80% of NSF cohort transfers vs. 40-60% for non-NSF population
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Results (cont) Cohort students had higher GPA Cohort students repeated beginning classes at a higher rate Cohort students repeated more advanced classes at a lower rate Support services critical Counselor involved – MOST IMPORTANT Individual interactions/relationships were most important
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Results (cont) Overall Engineering enrollments have increased by 70% in 4 years Minority enrollments have increased by 60% in 4 years Female enrollments have increased by 25%, but are still low. Low income enrollments have increased by 20%
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NSF S-STEM program Proposals due in August For low-income financially qualified students STEM fields PI must be teaching in STEM fields Cohort model Underrepresented groups encouraged $600,000 limit over 5 years, $225,000/year
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Elements of Good NSF Proposal Follow the outline Write to your peers Demonstrate institutional/community support Clear and to the point Explain assessment plan Support need Demonstrate reasons the project is likely to succeed
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Your Next Steps Are there immediate steps you could take to increase retention? What support is needed to take the steps?
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