Effects of Curricular Change in a Freshmen College Applied Algebra Course

1. Effects of Curricular Change in a Freshmen College Applied Algebra Course Dr. Robert Mayes Director of the Institute for Mathematics Learning

2. Crisis in Mathematics Education • Business Higher Education Forum (2005) • American Diploma Project (2005) • Percentage of ninth grade students in the U.S. who graduate from high school is 68% • 40% of these same ninth graders start college • 27% of them persist through the second year • 18% earn a degree • 22% of college freshmen are not ready for the entry level mathematics course and require remediation

3. Crisis in Mathematics Education • MAA Task Force on the First College Level Mathematics Course (Kime et al, 2000) • College enrollments are increasing, calculus enrollments are stagnant • 9% of students matriculate into calculus • Majority of first year students’ first college mathematics course is either remedial, liberal arts, or college algebra • Failure and withdrawal rates in before calculus courses are often dismal, with numbers between 40% and 60% common

4. Institute for Mathematics Learning • Reform in before calculus courses over the past 5 years • Liberal Arts Mathematics, Applied College Algebra, College Algebra, College Trigonometry, Precalculus, and Applied Calculus • Subsequent Course Success • Fall 2004-Spring 2005 students successful in a subsequent course 80% if A or B in IML course, 50% if C in IML course

5. Success Rates Fall 2004-Spring 2005

6. Applied College Algebra Study • Theoretical Framework • Curricular Revision • Method • Pilot Study – Fall 04 • Full Study – Spring 05 • Discussion

7. Theoretical Framework • Constructivist theory of learning • Curriculum and Evaluation Standards (2001) • Achieving Quantitative Literacy (2001) • CUPM Curriculum Guide for Undergraduate Courses in Mathematical Sciences (2003) • A Collective Vision: Voice of Partner Disciplines (2004)

8. Theoretical Framework • Tapping America’s Potential: The Education for Innovation Initiative (Business Round Table, 2005) • A Commitment to America’s Future: Responding to the Crisis in Mathematics and Science Education (Business Higher Education Forum, 2005) • American Diploma Project (Achieve, Inc., 2005)

9. Theoretical Framework • Liberal Studies Program goals • Introduce the great ideas and controversies in human thought and experience, in this case the function concept. • Develop the ability to reason clearly, communicate effectively, and understand major influences of society. • Develop critical thinking by requiring logical inquiry to evaluate decisions, question posing, problem formulation, and interpretation of results. • Incorporate a writing component

10. Theoretical Framework • Cognitive science • Lyn English (1997) views reasoning as embodied and imaginative • Learner Centered Instruction movement • Treisman’s Model (1992) • Collaborate on challenging problems in an environment of high expectations • Weekly collaborative learning sessions in small groups with student mentors • Rather than remediate - engage in challenging mathematics that is engaging and meaningful • Faculty sponsorship in development and management of the courses

11. Curricular Revision • Computer enhanced • Vista WebCT course management software, web sites, and interactive Java applets to provide access to course materials, implement assessment, communicate with students, engage students in exploring and discovering mathematics, and manage the course grades • Grapher

12. Curricular Revision • 10 online quizzes, four on-line chapter reviews, four on-line exams, and an on-line gateway pre-assessment to determine student mathematical deficiencies • Computer laboratory component • Students are peer mentored while they engage in explorations of mathematical concepts and apply mathematics to solve real world problems

13. Curricular Revision • Active student learning and student accountability, implementing teaching strategies that engage students and provide informal formative feedback on their progress • Personal Response System (PRS) • Implement 22 classroom participation activities that allow students to respond and receive immediate feedback • Power point slides guide the course discussion, serve as student lecture outlines, and provide instructors with real world data problems as well as a guide to key concepts

14. Curricular Revision • Supplemental Instruction (SI) • Fall 2004 - paper worksheets focusing on selected skills or applications • Spring 2005 grounded in programmed instruction (McHale, Christenson, and Roberts, 1986) and implemented with PRS • Two versions of SI • Algorithm SI focus on basic skills without context • Application SI used real world applications to motivate the need for learning basic skills

15. Curricular Revision • Students assigned to SI based upon performance on Pre-assessment. • Taken after a week of reviewing college algebra prerequisites • Students who scored below 80% on the first attempt were required to attend an SI review session and then retake the Pre-assessment within a week. • If the student failed to attain an 80% or higher mark on the Pre-assessment on either attempt, then they were required to attend SI for the remainder of the semester (designated Required) Students who scored above 80% were encouraged to attend SI, but their attendance was not required (designated Optional) • Optional students whose performance on one of three subsequent tests was less than 70% were then required to attend SI until they earned at least 70% on a later test

16. Method • Class randomly assigned to receive either Algorithm SI or Application SI • Retired version of the standardized ACT Mathematics exam as Pre- Post-test • Mathematics Attitude Inventory (MAI), developed by Mayes (2004) • Analysis of impact of supplemental on student outcomes within course components, including exams, laboratories, on-line homework quizzes, and overall grade.

17. Method • Nonequivalent Control GroupQuasi-experimental research design O1 O2 O3 X1 O4 O5 O6 --------------------------------------- O1 O2 O3 X2 O4 O5 O6 • O1 - O4 : Pre- and Post-Math Attitude Inventory (MAI) • O2 – O5 : Pre- and Post-ACT Exam • O3 : Pre-assessment of basic skills • O6 : Final Exam • X1 : Algorithm SI • X2 : Application SI

18. Method • Analysis was conducted using quantitative methods, including univariate and repeated-measures analyses of variance (ANOVA) and correlations. Significant main effects were further analyzed with pairwise comparisons using a Bonferroni adjustment.

19. Research Questions • What are the plausible effects of a Supplemental Instruction program targeted at students at risk of failure? • Does Application SI or Algorithm SI have the greatest impact on student cognition and affect? • What is the impact of the reformed Applied College Algebra course on student cognition and affect?

20. Pilot Study Fall 04 • ACT Pre- Post Analysis • 2 x 2 repeated-measures ANOVA with a between-subject factor of SI Requirement (Required or Optional) and a within-subject factor of Test (ACT pretest and ACT posttest) • No significant difference between the cohorts on overall ACT score • Significant main effect of ACT, F (1, 283) = 335.695, p < .001, with the posttest scaled scores (M = 19.86, SD = 3.02) exceeding the pretest scaled scores (M = 15.71, SD = 3.11)

21. Pilot Study – ACT Analysis

22. Pilot Study – ACT Subscales • Subscales of Pre-Algebra and Elementary Algebra (PAEA) and Intermediate Algebra and Coordinate Geometry (IACG) • All Optional cohorts made significant gains on both subscales • Required cohorts made significant gains in both subscales when they participated in SI over 50% of the time

23. Pilot Study – ACT Subscales

24. Pilot Study - Final Course Average • Univariate ANOVA indicated a significant effect of Cohort on final course average, F (6, 398) = 6.970, p < .001. • Pairwise comparisons using a Bonferroni adjustment indicated that both the Required and Optional 6-9 cohorts outperformed the Required 0 cohort, p <.05. • Required and Optional 10-11 cohorts outperformed the Required 0 cohort, p < .001. • No significant differences were found between Required and Optional students who earned the same number of points for SI. • There is also overwhelming evidence that the more you attend SI, the better you do in the course. • A Required student attending SI 6 to 9 times has a course mean equivalent to an Optional-Earned 6-9 student • A Required student attending 10 to 11 times actually had a higher mean than an Optional-Earned 10-11 student.

25. Pilot Study - Affect • Statistically significant drop in overall students’ attitudes from the beginning to end of the semester • Paired-samples t-test (t (459) = 11.92, p< .001). • Required SI students had a significantly poorer attitude at the end of the semester then their Optional SI counterparts

26. Pilot Study - Affect

27. Full Study – Spring 2005 • PRS in Supplemental Instruction and offering Algorithm SI and Application SI at distinct times in large lecture classrooms, allowed more control over tracking students. The question of which type of SI was most effective could now be addressed.

28. Full Study – Spring 2005 • A 2 x 2 x 2 ANOVA with between-subjects factors of Section (Application or Algorithm) and SI Requirement, and a within-subjects factor of Test was used to analyze the data. • Therewere no significant differences between the Application SI and Algorithm SI sections on the ACT pretest or posttest

29. Full Study – Spring 2005 • Significant main effect of Test, F (1, 205) = 180.471, p < .001, such that performance on the posttest (M = 20.15, SD = 2.47) was better than on the pretest (M = 18.42, SD = 2.64) • Significant main effect for SI Requirement, F (1, 205) = 11.973, p = .001, with the Optional group (M = 19.875) outperforming the Required group (M = 18.89). • There were no significant interactions.

30. Mean scaled ACT scores and standard deviations by section and Supplemental Instruction requirement

31. Three Subscales of ACToverall effect • PAEA subscale: post-test (M = 16.82, SD=3.21) exceeding pre-test performance (M = 14.66, SD = 3.67), F(1, 205) = 85.067, p < .001 • IACG subscale: post-test (M = 8.44, SD = 2.69) exceeding pre-test performance (M = 6.63, SD = 2.64), F(1, 205) = 97.903, p < .001 • PGTRG subscale: post-test (M =7.54, SD=2.83) exceeding pre-test performance (M = 6.29, SD = 2.64), F(1, 205) = 43.40, p < .001

32. Three Subscales of ACTby SI Type • PAEA subscale: Optional SI (M = 17.615) outperformed Required SI (M = 15.12), F(1, 205) = 28.974, p < .001 • IACG subscale: Optional SI (M = 8.69) outperformed Required SI (M = 7.155), F(1, 205) = 18.442, p < .001. • PGTRG subscale: Optional SI (M = 8.02) outperformed Required SI (M = 6.545), F(1, 205) = 16.319, p < .001

33. ACT Subscale by SI Type

34. ACT by Cohort • Optional 0 students outperformed the Optional 1-5, Optional 11-13, and all Required cohorts on the ACT. • No other cohorts were significantly different from one another. • This supports the previous findings that while the overall course influenced ACT posttest scores, SI had little impact

35. ACT by SI Attendance

36. Final Course Average by Cohort • All Optional cohorts outperformed both the Required 0 and Required 1-5 cohorts • Required 0 cohort was outperformed by all other Required cohorts • No other cohorts were significantly different from one another • This indicates that SI had an overall course impact for Required students who attended at least 50% of the time

37. Final Course Average by Cohort

38. Exam Average by Cohort • Optional 0 cohort outperformed all of the Required cohorts • Optional 1-5 cohort outperformed the Required 0 and Required 1-5 cohorts • Optional 6-10 and Optional 11-13 cohorts outperformed the Required 0, Required 1-5, and Required 11-13 cohorts • Required 6-10 cohort significantly outperformed the Required 0 cohort. No other comparisons were significant.

39. Exam Average by Cohort

40. Lab Average by Cohort • All Optional cohorts outperformed the Required 0 cohort • Required 6-10 and Required 11-13 cohorts outperformed the Required 0 cohort • No other comparisons were significant

41. Lab Average by Cohort

42. Exam by Exam • In these analyses the cohorts are determined by the most previous test performance • Exam 1 (2 SI sessions) Optional 0 cohort outperformed all Required cohorts • Exam 2 (4 SI sessions) all Optional cohorts outperformed the Required 1 and 2 cohorts. The Optional 0, 1, and 3 outperformed the Required 3 and 4 cohorts. Only the Optional 0 cohort significantly outperformed the Required 0 cohort. Required 0 cohort outperformed the Required 2 cohort

43. Exam by Exam • In these analyses the cohorts are determined by the most previous test performance • Exam 3 (4 SI sessions) Optional 0, 1, 2, and 3 cohorts outperformed all Required cohorts on Exam 3. Optional 4 cohort significantly outperformed Required 0 and 1 cohorts • Final Exam (3 SI sessions) Optional 0 and 3 cohorts outperformed all Required cohorts. Optional 1 and 2 cohorts outperformed Required 0, 1, and 3 cohorts.

44. Exam by Exam • Overall the examination of SI exam by exam reveals that Optional SI students continue to outperform their Required SI counterpoints. Surprisingly, Required SI students who attend all of the required sessions did not score significantly better on the following exam, although the trend was that exam scores did increase as attendance increased.

45. Attitude Subscales • A paired-samples t-test was conducted on the average responses for the Attitude Survey • No significant difference between the two administrations of the Attitude Survey • No significant correlation between students’ final grades and their responses on the Attitude Surveys • There were some general effects on the Utility, Locus of Control, and Belief subscales, where the pretest scores were more positive than the posttest scores • There were no significant differences between the Application SI and Algorithm SI sections

46. Attitude Subscales

47. Discussion