Figure 1.
Example of a quiz question used in class.
This question was designed to test the conceptual understanding of gradients of signaling molecules. Although no course-specific content is required to answer this question, most quiz questions (and those on other evaluations) required the students to demonstrate both knowledge of content and an understanding of fundamental concepts. Students were awarded part-marks for answers that were partially correct, at the instructors' discretion. For example, if a student drew only one happy face in i) a or i) b, but it was shown in the correct orientation, the student received 0.5 out of 1 for that question.
Figure 2.
Typical lesson plan and marking scheme used in our fourth-year undergraduate biology course.
a) Typical lesson plan used in the Refined SGL sections. Lessons began with a quiz on the previous day's material: this quiz was completed by individuals first, and the same quiz was then attempted by the group. The quiz was subsequently taken up in-class. The rest of the lesson consisted of instructor-led lecture and discussion, interspersed with student-centred activities. Some lessons (6 per term) were entirely devoted to in-class group assignments; other lessons (8 per term) were devoted to seminar presentations. b) Marking scheme used in the Refined SGL sections. Students were evaluated using a variety of instruments. Group-based evaluations included the group seminar, group quizzes and assignments, and participation, whereas individuals were evaluated on their written report, individual quizzes, and midterm and final exams. In order to reinforce the importance of learning concepts rather than memorization, we allowed students one double-sided “cheat sheet” for both exams. Participation marks were based on peer assessment: each student rated the performance of every other member of their group according to five categories (attendance and daily participation, preparation, responsibility, respect and seminar participation).
Figure 3.
The effectiveness of small-group-learning (SGL) is borne out in final exam performance.
Grades from final exams were examined for five terms of a fourth-year Developmental Neurobiology course. Terms with similar learning environments were combined: students either worked in an Individualistic environment (2005 and 2006) or worked in permanent small groups (Initial SGL, 2007; and Refined SGL, 2008 and 2009). We incorporated changes in Refined SGL that improved on the design of the Initial SGL setting (e.g. by introducing individual quizzes prior to group quizzes). a) The class average for the final exam was higher in the Refined SGL environment than it was for both other groups. b) Box plots of the same data reveal an increase in median (line), 75th percentile (upper limit of box) and 25th percentile (lower limit of box) with the introduction of SGL. Whiskers represent the 10th and 90th percentiles: the grade at the 10th percentile exhibits a remarkable, positive shift with the introduction of SGL. c,d). Comparison of exam grade distributions between these three groups showed that students in the Initial SGL performed better than students in the Individualistic setting, and that students in the Refined SGL environment performed better than students in both other groups. This indicates that our SGL environment benefits academic performance, and that refinements made since its initial implementation have made the SGL model more effective. Asterisks indicate significant differences between groups (Kruskal-Wallis ANOVA, Dunn's test (a); Kolmogorov-Smirnov goodness-of-fit test (d)); n = 61 (Individualistic), n = 76 (Initial SGL), n = 82 (Refined SGL).
Figure 4.
Small-group learning benefited all students, including term high achievers.
In the Refined SGL environment, students first wrote each quiz individually, and then completed the same quiz in small groups immediately after (13 quizzes over the term). For the group quiz, group members had to consider and debate possible answers, since a single answer was submitted and graded for the entire group. When all quiz grades were considered, group quiz grades were significantly higher than individual quiz grades (left panel). Interestingly, group grades were also significantly higher than individual grades of term high achievers (middle panel). Term high achievers were those students who had the best average individual quiz grade over the term in each group (one student per group). Average group quiz grades were not significantly different from the individual grades of the daily top-performing student on each quiz (right panel). These data suggest that even term high-achieving students profit from small-group learning, that groups perform as well as their daily top-performing student on any given quiz, and that the daily top performer in groups changes from quiz to quiz. Asterisks indicate p<0.05 versus group quiz grades (paired t test); n = 39 (all students), n = 8 (group grades, term high achievers, daily top performer).
Figure 5.
Student attitudes toward small-group learning improved over the term.
Students in the Refined SGL environment completed the Student Attitudes toward Group Environments (SAGE) questionnaire twice, once at the start (Entrance) and once at the end (Exit) of the course. Each question on the SAGE survey contributed to one of four subscores. (a) Student attitudes toward the quality of product produced in groups and toward peer support offered in groups were more positive on the exit survey than on the entrance survey. There was no change in attitudes toward student interdependence. Students expressed much less frustration with group members on the exit survey. (b) The positive shifts in attitude expressed by all students were also reflected in term high achievers' responses. (c) High achievers' attitudes towards peer support shifted significantly more over the term than did the attitudes of all students. Entrance survey scores were subtracted from exit survey scores for each of the four subscores. These data suggest that students – even term high achievers – develop a more positive perspective toward working in groups after taking a course structured around SGL. Asterisks indicate p<0.05 versus entrance survey (a, b; paired t test) or versus all students (c, unpaired t test); n = 36 (all students), n = 7 (term high achievers – one term high achiever did not complete both surveys).