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Redesign of Precalculus Mathematics

Redesign of Precalculus Mathematics. THE UNIVERSITY OF ALABAMA College of Arts and Sciences Course Redesign Workshop October 21, 2006. Setting/Problem Course History Course Format Outcomes. Implementation issues Cost-Savings Conclusions. Redesign of Precalculus Mathematics. Setting.

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Redesign of Precalculus Mathematics

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  1. Redesign of Precalculus Mathematics THE UNIVERSITY OF ALABAMA College of Arts and Sciences Course Redesign Workshop October 21, 2006

  2. Setting/Problem Course History Course Format Outcomes Implementation issues Cost-Savings Conclusions Redesign of Precalculus Mathematics

  3. Setting • 6 Precalculus math courses • 6500 students per year • Taught in traditional, lecture-based setting • Taught entirely by instructors and GTAs

  4. Course Format • Courses taught in rigid format • Common syllabus • Common presentation schedule • Common tests

  5. Problems • Courses teacher centered • No support for multiple learning styles • Inconsistent coverage of topics • No flexibility in instructional pace • Lack of student success • D/F/W rates as high as 60% • Very high course repeat percentage • Negative impact on student retention • Significant drain on resources

  6. Issues • Tenure-track faculty not invested in precalculus courses • Courses damaging to department’s reputation • Solutions proposed required significant resources • Smaller class size • Increased support (graders, tutors)

  7. Solution • Identify an alternative structure that: • Had faculty and instructor support • Was learner centered • Supported multiple learning styles • Provided consistent presentation of material • Allowed students to work at own pace • Increased student success • Reduced resource demands

  8. Approach Selected • “Math Emporium” model developed by Virginia Tech • Initial application to Intermediate Algebra (Math 100) • Approximately 1300 students per year

  9. CourseHistory

  10. Course History • Fall 1999 • Visited Virginia Tech • Began initial planning for course • course text/software - Intermediate Algebra by Martin-Gay/MyMathLab (Prentice-Hall)

  11. Course History • Spring 2000 • Piloted redesigned format in 3 sections of Math 100 (100 students)

  12. Course History • Summer 2000 • Received $200,000 Pew grant • Assigned a 70-seat computer lab to course • Established the Mathematics Technology Learning Center (MTLC) • Taught 5 sections of Math 100 (130 students) using redesigned format

  13. Course History • Fall 2000 • Taught 18 sections of Math 100 in MTLC (1140 students) 1140

  14. Course History

  15. Course History

  16. CourseFormat

  17. Course Format • 30-50 minute “classes” that introduce students to topics and integrate the topics into the overall course objectives • 3-4 hours in MTLC or elsewhere working independently using course software that presents a series of topics covering specific learning objectives • Instructors and tutors available in MTLC 71 hours/week to provide individualized assistance

  18. Course Format (continued) • Students work homework problems that cover defined learning objectives • Homework is graded immediately by the computer providing the student with instant feedback on their performance • After completing homework, students take quizzes that cover learning objectives

  19. Course Format (continued) • Students can do homework and take quizzes multiple times and receive instant feedback • After completing homework and quizzes on a series of topics, students take a section test • Tests are given only in the MTLC • Tests available on demand with a specified completion date

  20. Fundamental Premise Students learn mathematics by doing mathematics

  21. Advantages of Course Format • Learner centered • Software supports multiple learning styles • Consistent presentation of material • Individualized tutorial support available

  22. Advantages of Course Format • Students can work at own pace • Students can work in lab or at home • Software provides instant feedback on work • Homework, quizzes, tests, & exam computer graded • Software records all student activity

  23. Implementation Issues

  24. Implementation Issues • Instructor Buy-In • Instructor Training • Detachment From Students • Student Engagement • “No Teacher” Syndrome • Staff Scheduling • Scheduling Deadlines, Tests, Etc. • Data Management

  25. Outcomes

  26. Success Rates Semester Success Rate Semester Success Rate Fall 1998 47.1% Spring 1999 44.2% Fall 1999 40.6% Spring 2000 53.5%

  27. Success Rates Semester Success Rate Semester Success Rate Fall 1998 47.1% Spring 1999 44.2% Fall 1999 40.6% Spring 2000 53.5% Fall 2000 50.2% Spring 2001 35.8% Fall 2001 60.5% Spring 2002 49.8% Fall 2002 63.0% Spring 2003 41.8% Fall 2003 78.9% Spring 2004 55.4% Fall 2004 76.2% Spring 2005 60.1%

  28. Success Rates Semester Success Rate Semester Success Rate Fall 1998 47.1% Spring 1999 44.2% Fall 1999 40.6% Spring 2000 53.5% Fall 2000 50.2% Spring 2001 35.8% Fall 2001 60.5% Spring 2002 49.8% Fall 2002 63.0% Spring 2003 41.8% Fall 2003 78.9% Spring 2004 55.4% Fall 2004 76.2% Spring 2005 60.1% Fall 2005 66.7% Spring 2006 56.5%

  29. Outcomes – Grade Distribution* Semester A B C Fall 1999 13.1% 32.6% 54.2% Spring 2000 12.7% 34.0% 53.3% Fall 2000 18.0% 41.6% 40.4% Spring 2001 11.0% 24.8% 64.2% Fall 2001 17.4% 41.7% 40.9% Spring 2002 11.0% 36.7% 52.2% Fall 2002 21.5% 40.1% 38.4% Spring 2003 17.0% 28.6% 54.4% Fall 2003 42.3% 38.1% 19.6% Spring 2004 22.1% 36.2% 41.7% *Percentages of students successful

  30. Math 121Grade Distributions(Fall 2005 Semester)

  31. Pass Rate (Subsequent Courses) CohortMTLCOverall F98-Sp99 57.4% 44.3% F99-Sp00 54.6% 40.0% F00-Sp01 58.0% 44.5% F01-Sp02 74.6% 53.8% F02-Sp03 81.4% 46.6% Math 112 - Precalculus

  32. Underserved Groups

  33. Pass Rates by Math Placement Category

  34. Pass Rates by Gender(Fall Semesters)

  35. Outcomes By Ethnicity Demographics Caucasian – 81% African-American – 15% Other – 4%

  36. Math Placement Scores

  37. Pass Rates by Ethnicity(Fall Semesters)

  38. Course Persistence

  39. Course Persistence(Math 100)

  40. Math 121Course Persistence(Fall 2005 Semester)

  41. Cost Savings

  42. Traditional Course Cost 2001-2002 Academic Year - 1480 Students 43 Sections of 35 Students Each 2 FTTI (16 sections) @ $36,250 $72,500 5 GTAs (20 sections) @ $17,565 $87,825 7 PTTI (7 sections) @ $1,655 $11,585 Total Cost $171,910 Cost Per Student $116

  43. Redesigned Course Cost 2001-2002 Academic Year - 1480 Students 1 Section Each Semester 2 FTTI @ $36,250 $72,500 6 PTTI @ $1,655 $9,930 UG Tutors 5760 hrs @ $7/hr $40,320 Total Cost $122,750 Cost Per Student $83

  44. Cost Savings Traditional Course $116/student Redesigned Course $83/student Savings $33/student (28%)

  45. Cost Savings(Economy of Scale) 955 Students in Math 005 & 112 1 FTTI @ $36,250 $36,250 4 PTTI @ $1,655 $6,620 Total $42,870 $45/student

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