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Australasian Journal of
Educational Technology

2009, 25(3), 382-398

The effects of using a wiki on student engagement and
learning of report writing skills in a university statistics
course

David L. Neumann and Michelle Hood
Griffith University

A wiki was used as part of a blended learning approach to promote collaborative
learning among students in a first year university statistics class. One group of
students analysed a data set and communicated the results by jointly writing a
practice report using a wiki. A second group analysed the same data but
communicated the results in a practice report that they wrote individually. Both
groups were taught the same material. The report was used for practice as a way to
support student learning and was not submitted for assessment. Both approaches
improved report writing knowledge and did not differ in the mark obtained on an
individually written research report subsequently submitted for assessment. The wiki
approach produced higher engagement with other students, cognitive engagement,
and class attendance than the individual approach. Qualitative feedback suggested
some drawbacks to using a wiki. Overall participation was also low with only 2 of the
22 wiki subgroups completing all components of the practice report. The present
findings suggest that student engagement, but not performance on assessment, may be
enhanced when a wiki is used to support learning in higher education.

Introduction

Technology is transforming the university classroom by influencing the ways in which
teachers and students communicate, collaborate, and learn. A relatively recent
technological tool that has been used in higher education is the wiki. Wiki means
“quick” in the Hawaiian language and its originator, Ward Cunningham, described
the wiki as an extremely simple online database (Leuf & Cunningham, 2001). Wikis are
interlinked web pages based on the hypertext system of storing and modifying
information. Each page can store information and is easily viewed, edited, and
commented on by other people using a web browser. Functionally, a wiki is meant to
engage individuals to regularly update wiki pages in a collaborative fashion, to add
new information, and to create links between pages. Wikis are being increasingly used
within the higher education context. For instance, wikis have been employed to assist
knowledge management in an academic setting (Raman, Ryan & Olfman, 2005) and
develop a collaborative online textbook (Ravid, Kalman & Rafaeli, 2008). However,
most interest has focused on how wikis might foster learning in students (see the
recent articles in this journal by Elgort, Smith & Toland, 2008; Robertson, 2008; and
Ruth & Houghton, 2009 for examples).

In the constructivist approach to learning and teaching, the student is actively involved
in creating knowledge, instead of absorbing it (Bruner, 1990). The integration of ideas
into existing frameworks and reframing beliefs as a result of new learning experiences



Neumann and Hood 383

are key components of this approach (Piaget, 1971). Ebner, Kickmeier-Rust and
Holzinger (2008) have noted that the requirement to create knowledge by editing web
pages makes the wiki consistent with the constructivist approach. Moreover, wikis
promote learning when acquisition of that knowledge is dependent on social processes
and collaborative efforts among students (Wheeler, Yoemans & Wheeler, 2008), as
proposed by socio-cultural perspectives of learning (Vygotsky, 1998; Bonk & Kim,
1998). Collaborative learning has been associated with higher achievement, higher
motivation, positive student-student relationships, and more positive attitudes
towards the discipline of study (Giraud, 1997; Keeler & Steinhorst, 1995; Rohrbeck,
Ginsburg-Block, Fantuzzo & Miller, 2003). It has also been suggested that the review
and editing process that is central to wiki applications fosters metacognition and
reflexivity in students (Kirschner, 2004).

Based on the links between the wiki approach and learning theory, it is not surprising
that there are reports of the successful application of wikis in higher education
(Guzdial, Rick & Kehoe, 2001; Pappenberger, Harvey, Beven, Hall & Meadowcroft,
2006). For example, wikis facilitate student-teacher and student-student interactions
(Stahmer, 2006), promote casual and flexible discussion (Read, 2005), and allow
students to collaborate to conduct research and communicate their findings (Bold,
2006). However, Ebner et al. (2008) note that most claimed successes of wikis are not
based on improvements in learning outcomes, but were related to the frequency of use
of the system. Moreover, many reports of wiki applications in higher education consist
of qualitative descriptions of teacher and student experiences and, by consequence,
lack quantitative evaluations. One example of an empirical study is provided by the
evaluation of a wiki related format termed CoWeb (Rick & Guzdial, 2006). The CoWeb
approach facilitated learning in English composition, but was less effective in some
science, technology, and mathematics classes. Students in the latter classes seemed to
have resisted the collaborative learning approach, prompting the authors to suggest
that there must be compatibility between the classroom culture, discipline culture, and
the technology used.

The particular learning and teaching context examined in this study was the teaching
of report writing skills in a first year statistics course. Course evaluations by students
and the assessment of learning outcomes indicated this as an area in need of
improvement for both student learning and engagement. Ben-Zvi (2007) has recently
argued that wikis and statistics are compatible because the use of statistics in the
workplace is collaborative in nature. Statisticians work as part of a team and consult
with various people during the research process. Moreover, recent teaching guidelines
encourage group learning in the statistics classroom (Franklin & Garfield, 2006) and a
collaborative approach can enhance learning in statistics (Giraud, 1997; Keeler &
Steinhorst, 1995; Magel, 1998). In addition, Ben-Zvi (2007) argued that wikis are
particularly well placed to enhance learning of report writing skills. Such applications
are facilitated by a wiki because students can edit pages from independent locations,
there is only one version of the document at any one time, incompatibilities between
computer software are avoided, and the wiki keeps track of edits made and has the
ability to post comments. It is advised that for such applications to succeed, the teacher
should help form wiki subgroups and promote a classroom culture that has a feeling of
community, is tolerant of mistakes, and values high quality writing (Ben-Zvi, 2007).

In the present application, the wiki was employed within a blended learning approach
(Heinze & Procter, 2004) by using it to complement the face to face teaching of



384 Australian Journal of Educational Technology, 2009, 25(3)

students. In order to evaluate the potential merits of using the wiki, a comparative
approach was used, by having students in some classes write a practice research report
collaboratively using a wiki, whereas students in other classes wrote the practice
report individually using word processing software. Due to the potentially wide
benefits of collaborative learning through a wiki (higher achievement, higher
motivation, positive student-student relationships, and more positive attitudes
towards the discipline; Giraud, 1997; Keeler & Steinhorst, 1995; Rohrbeck et al., 2003),
the present study measured learning outcomes, knowledge of report writing, attitudes
towards statistics, statistics anxiety, and engagement with other students and the
discipline. It was hypothesised that both the wiki and individual instruction in report
writing would have positive effects on student learning outcomes and attitudinal
measures from pre-test to post-test. However, the wiki approach was hypothesised to
result in a greater engagement with other students and the course material and higher
marks on a research report subsequently submitted for assessment than the approach
in which the practice report was written individually.

Method

The implementation and evaluation of the project was granted approval from the
institutional ethics review board. Participation in completing the questionnaires and
evaluations by the students was voluntary.

Description of the course

The wiki was implemented in a first year research methods and statistics course
(1003PSY) at Griffith University. Griffith University is a large, multi-campus
university, although the wiki was implemented and evaluated only on one campus in
which the course was taught. The course is a required component in the psychology
programs at the university and had enrolments of 180 students across the semester.
Demographic information obtained from a survey previously conducted by the school
indicates that the students are mostly aged from 17 to 19 years (60%). A further 20%
are aged between 20 to 24 years, and 20% are aged 25 years and older. Most students
are female (84%). Most are also single with no children (68%), while the rest are in a
relationship with no children (12%), or in a relationship or single with children (20%).
The vast majority are domestic students (96%). The course itself aims to provide
students with a basic introduction to the theory and application of statistics in
psychological research and practice. Topics include basic research methods,
descriptive statistics (e.g. histogram, boxplot, mean, median), bivariate correlation,
probability, sampling distributions, confidence intervals of the mean, and hypothesis
testing. The course is taught through a weekly 2-hour lecture and a 2-hour tutorial
across 13 weeks of the semester. Students are taught data analysis using the SPSS
statistical software package.

Teaching approach

The course contained 10 tutorial classes varying in size from 15 to 25 students,
conducted by three tutors. Cluster sampling was used to randomly assign five tutorial
classes to incorporate the wiki approach (Wiki group) and five tutorial classes to use the
individual writing approach (Individual group). Of the three tutors, one tutor had two
wiki and two individual practice report classes, the second tutor had two wiki and one
individual practice report classes, and the third tutor had one wiki and two individual



Neumann and Hood 385

practice report classes. The tutors were not informed that a formal assessment of the
two teaching approaches would be carried out. They were told by the course convenor
(first author) that he was “interested in which approach worked best in the course”.

The teaching methods were guided by Biggs and Tang’s (2007) philosophy of the
purposeful alignment between teaching and assessment. Consistent with this
approach, all students were taught the skills required to analyse a data set and write a
practice report, and were subsequently required to submit a research report
assignment for grading. The teaching methods used across the wiki and individual
writing classes were identical in terms of teaching materials and class objectives,
differing only in how students completed the practice report. Six tutorial classes were
devoted to teaching students the necessary skills for data analysis and report writing.
The main learning objectives were as follows. Students were initially taught the format
of a laboratory report, how to use the PsychINFO database to conduct a literature
search, and the writing of the title page and Introduction section (class 1). The
calculation and write up of the results in the practice report for graphical (class 2) and
numerical (class 3) descriptive statistics were taught next. The following class taught
students the calculation and write up of scatterplots and correlation (class 4). Next,
students were taught how to write the Abstract, Method, and Discussion sections of the
practice report (class 5). In the final class (class 6), students were asked to bring in a
printed copy of their practice report for formative, peer assessment. In the week
following this class, the students were required to submit their own, individually
written research report for summative assessment. This assessed report was completed
on a different research topic and used an individualised data set. However, it required
the same skills as were taught in the tutorial classes (i.e. to calculate and report
descriptive statistics, scatterplots, and correlations).

Each tutorial class included time in which students completed a writing task relevant
to the material covered in the tutorial (e.g. class 4 required students to produce
scatterplots, a table of correlation coefficients, and describe this information in the
Results section of the practice report). If students did not complete the writing task
during the class, they were asked to complete it outside of class time. In both the Wiki
group and Individual group, the practice reports were completed across six weeks
during class time and students were also encouraged to continue working on the
practice reports outside of class time as required.

For the students in the Wiki group, the practice report components and ultimately the
entire practice report, was written using a wiki. In Class 1 in those wiki classes, the
tutors helped to form the students into self selected subgroups of four to six students.
Each subgroup decided on a name and access to their wiki document was set up. The
wiki was a component of the Blackboard learning management system and this allowed
access to a wiki to be restricted to only those students in that subgroup and the
teaching team of the course. The tutor set up each subgroup’s wiki during Class 1 and
also gave a 15 minute introduction to the wiki. The students were shown how to access
the wiki, how to edit the document and add comments, and how to access the help
system. Students were able to access the document during and outside of class time via
the Internet and were able to access their tutor during his/her consultation sessions for
additional support in using the wiki.

The emphasis on the use of the wiki during the classes was that it provided a common
interface for students to create a practice report. It provided a collaborative



386 Australian Journal of Educational Technology, 2009, 25(3)

environment that allowed each student to contribute to the practice report and to ask
questions about or discuss changes to the report. Due to its use within the blended
learning environment, students were able to engage collaboratively either in person
during class time or virtually online outside of class time. Moreover, the wiki provided
a means to highlight the progressive nature of report writing. Sections were added to
the practice report in a progressive manner because each class focused on a specific
aspect of the report. The wiki system also allowed students to revise earlier sections of
the practice report and to keep a record of the edits that had been made. The edits
provided a point of discussion among students and allowed them to learn from one
another. In each class, the tutor checked on the progress made by each of the wiki
subgroups on compiling the practice report and answered technical questions as they
arose.

For the students in the Individual group, the report was written individually using a
word processing program (Microsoft Word). In a 15 minute session during Class 1, the
tutor showed students how to start the program on the computers in the tutorial
classroom, the basic functions of the program, and how to access the help system.
Students had access to the word processing program during and outside of the tutorial
classes in computer laboratories located on campus.

Materials and measures

Tutorial attendance across the six tutorials and marks obtained in the assessed research
report were collected from course records. In addition, students were administered
questionnaires to measure demographic characteristics, self efficacy for statistics,
statistics anxiety, report writing knowledge, student engagement experiences, and to
obtain qualitative feedback on the tutorials.

• A questionnaire was developed to obtain information on student gender, age,
English as first language, enrolment status, program of study, and prior
mathematics study (completion of final year of school or equivalent and
achievement level). Achievement was rated on a 5-point scale that varied from 1 =
very poorly (e.g. VLA) to 3 = average (e.g. SA) to 5 = very well (e.g. VHA).

• The second instrument assessed perceived self efficacy for statistics. The 10 items
were those used by Bandalos, Finney and Geske (2003) and consisted of eight items
adapted from the self efficacy subscale from the Motivational Strategies for Learning
Questionnaire (Pintrich & De Groot, 1990) plus two items previously used by
Bandalos, Yates and Thorndike-Christ (1995). The wording of some items was
modified to make them specific to the statistics class being taught. Items were
answered on a 7-point scale that varied from 1 = strong disagree to 7 = strong agree.
Bandalos et al. (2003) reported an internal consistency coefficient of .95 for the 10
item scale. The values for the Cronbach alpha coefficient in the present study were
.93 at pre-test and .89 at post-test.

• The Statistical Anxiety Rating Scale (STARS) developed by Cruise, Cash and Bolton
(1985) is the most widely used measure to assess statistics anxiety (Onwuegbuzie &
Wilson, 2003). The STARS is divided into two components. For items 1 to 23,
students indicate how much anxiety they would experience in different situations
on a 5-point scale that varies from 1 = no anxiety to 5 = considerable anxiety. The items
measure test and class anxiety, interpretation anxiety, and fear of asking for help.



Neumann and Hood 387

For Items 24 to 51, students indicate their level of agreement to various statements
on a 5-point scale that varies from 1 = strongly disagree to 5 = strongly agree. The
items measure worth of statistics, fear of statistics teachers, and computational self-
concept. Some items in the STARS were modified to more appropriately reflect the
cultural context (e.g. the word “professor” was replaced with “lecturer”). The
STARS internal consistency across the entire 51 items has been reported to have an
alpha value of .96 (Baloglu, 2002). Cronbach’s alpha across all the subscales has
varied between .83 and .94 (Hanna, Shevlin & Dempster, 2008). In the present study
the entire 51 items yielded an alpha of .94 at pre-test and .92 at post-test and the
subscales alpha values ranged from .72 to .93, although the test anxiety subscale at
post-test had value of .46.

• A 10-item test was developed to assess report writing knowledge. The items
assessed factual knowledge about the American Psychological Association Publication
Manual (American Psychological Association, 2001) formatting requirements (e.g.
the figure caption should be placed above the figure) and report writing conventions (e.g.
in a table or figure, the statistical significance of < .01 is indicated by the symbol “**”).
Items were answered as True, False, or Don’t know. The latter option was used to
discourage guessing among students.

• A set of 14 items was based on The National Survey of Student Engagement (2007) to
evaluate student participation and engagement. Four items asked about working
with other students (e.g. worked with other students during class time) on a scale from
1 = never to 4 = very often. Five items asked about how the tutorial classes
emphasised various mental activities (e.g. applying theories and/or concepts to practical
problems or in new situations) and were answered on a scale that varied from 1 = very
little to 4 = very much. Five final items asked students to rate the extent to which the
tutorial classes contributed to the development of skills (e.g. working effectively with
other students) using the same scale of 1 = very little to 4 = very much. The
questionnaire thus resulted in subscales to measure engaging with other students,
cognitive engagement, and skill development. Cronbach’s alpha for all items was
.78, which was satisfactory, and for the subscales of engagement with other
students, cognitive engagement, and skill development were .58, .78, and .72,
respectively.

• Four items obtained qualitative feedback from the students on the teaching strategy
used in the tutorial. The questionnaire asked students to give written comments on
both positive and negative experiences with the approach used in their classes (wiki
or individual practice report). In addition, students were asked whether they would
recommend the same teaching approach be used again.

The questionnaires were administered at two times. The first administration (pre-test)
occurred during the first lecture in the course, prior to any tutorial classes. At this time,
students were administered the demographic questionnaire, self efficacy
questionnaire, STARS, and report writing questionnaire. The second administration
(post-test) occurred during a lecture or tutorial class in the week following that in
which the research report assignment was submitted for assessment. The self efficacy
questionnaire, STARS, report writing questionnaire, student experiences
questionnaire, and tutorial feedback questionnaire were administered at this time.



388 Australian Journal of Educational Technology, 2009, 25(3)

Results

Demographic sample characteristics

Due to the voluntary nature of the participation, not all students in the course
completed the questionnaires. Table 1 shows the demographic characteristics for the
students who completed the questionnaires at both pre-test and post-test
administration periods. As can be seen, 52 students (29% of the total class) were in the
final sample. To check if the groups differed on variables that might confound
comparisons between groups on outcome measures, a series of chi-square (for
qualitative variables) and independent groups t-test (for quantitative variables)
analyses were conducted on the demographic variables. The groups did not differ on
any measures, all p > .05.

Table 1: Demographic characteristics for students who completed
the questionnaires at both pre-test and post-test administration.
Counts are shown for qualitative variables and means are shown for

the quantitative variables (standard deviations in parentheses).

GroupVariable Wiki Individual Total
Sample size (n) 27 25 52
Male:Female ratio 2:25 4:21 6:46
Age (years) 23.81 (8.74) 21.92 (7.19) 22.63 (8.07)

Yes 21 19 40English as first language
No 6 5 11
Full time 24 24 48Enrolment load (a)
Part time 2 0 2
Domestic 22 21 43Enrolment status (b)
International 5 3 8
Yes 19 18 37Completed mathematics in Year 12(c)
No 8 6 14

Rating for achievement in Year 12 mathematics (d) 3.83 (0.71) 3.74 (0.87) 3.78 (0.79)
Yes 1 1 2Repeating course (e)
No 26 23 49

a. Only 26 students in the Wiki group and 24 students in the Individual group reported
enrolment load.

b. Only 24 students in the Individual group reported their enrolment status.
c. Only 24 students in the Individual group reported on the completion of Year 12

mathematics.
d. Only 24 students in the Individual group rated their achievement.
e. Only 24 students in the Individual group reported on repeating the course.

Quantitative comparisons between the wiki and individual groups

The students completed the self efficacy for statistics questionnaire, STARS, and
research report test at both pre-test and post-test. The mean ratings and scores
obtained for these measures are shown in Table 2. A 2 x 2 (Group x Time) ANOVA for
the self efficacy questionnaire responses yielded no significant main effects or
interactions, all F values < 2.24, p > .05. Examination of the mean ratings for the
subscales of the STARS with separate 2 x 2 (Group x Time) ANOVAs yielded main
effects of time for interpretation anxiety, F (1, 50) = 6.12, p < .05; fear of asking for help,
F (1, 50) = 5.78, p < .05; and computational self concept, F (1, 50) = 13.67, p < .01. These



Neumann and Hood 389

effects suggested that interpretation anxiety and fear of asking for help decreased and
computational self concept improved from pre-test to post-test.

Table 2: Mean ratings for the self efficacy questionnaire, the subscales of the
statistics anxiety rating scale, and performance on the research report test for
the pre-test and post-test assessments in the Wiki and Individual groups
(standard deviations are in parentheses).

Group
Wiki IndividualMeasure

Pre-test Post-test Pre-test Post-test
Self efficacy 4.28 (1.06) 4.09 (1.28) 4.16 (1.05) 3.80 (1.15)

Test and class anxiety 3.06 (0.85) 3.30 (1.57) 3.31 (0.73) 3.23 (0.71)
Interpretation anxiety 2.74 (0.83) 2.45 (0.65) 2.91 (0.56) 2.73 (1.11)
Fear of asking for help 2.40 (0.92) 2.06 (0.75) 2.75 (0.99) 2.46 (1.06)
Worth of statistics 2.09 (0.55) 2.32 (0.77) 2.39 (0.68) 2.36 (0.81)
Fear of statistics teachers 1.98 (0.70) 1.73 (0.56) 2.10 (0.73) 1.96 (0.70)

Statistics
anxiety
rating scale

Computational self concept 2.64 (1.00) 2.32 (0.86) 3.05 (0.92) 2.59 (0.91)
Correct answers (%) 41.11 (20.82) 74.44 (25.17) 41.67 (18.80) 61.25 (30.40)Report wri-

ting test Don’t know responses (%) 30.37 (22.27) 2.96 (6.09) 25.00 (20.00) 7.08 (12.33)

Performance on the report writing test was examined by calculating the percentage of
correct answers and the percentage of don’t know answers. A series of 2 x 2 (Group x
Time) ANOVAs conducted separately for each measure did not yield any significant
main effects or interactions involving the Group factor, all Fs < 1.31, p > .05. However,
the percentage of correct responses increased and the number of don’t know responses
decreased from pre-test to post-test, both Fs > 41.39, p < .001, to suggest that students
did improve in their knowledge of report writing.

The students completed the student engagement experiences questionnaire, obtained a
mark for the assessed research report, and had a final value for tutorial attendance
only for post-test. The mean values for each of these variables are shown in Table 3 for
each group. As can be seen for the engagement ratings, the groups showed similar
values for the skill development subscale, but were different on the other subscales.
Statistical analyses suggested that that the Wiki group rated their engagement with
other students, t (50) = 2.16, p < .05, and cognitive engagement, t (50) = 2.08, p < .05, as
higher than the Individual group, whereas there were no differences between groups
for ratings of skill development, t (50) = 0.30, p > .05. Table 3 also suggests that the
Wiki group obtained a slightly higher mark and attended more tutorials than did the
Individual group. The difference in the assessed research report mark was not
significant, t = .45, p > .05, although the group difference in tutorial attendance was
marginally significant, t (50) = 1.88, p = .06.

Table 3: Mean values for the subscales of the student experiences questionnaire,
research report mark, and tutorial attendance for the Wiki and Individual
groups (standard deviations are in parentheses).

GroupMeasure Wiki Individual
Engagement with other students 2.53 (0.63) 2.15 (0.68)
Cognitive engagement 2.69 (0.42) 2.41 (0.55)

Student experiences
questionnaire

Skill development 2.34 (0.45) 2.38 (0.61)
Research report mark (%) 73.30 (12.54) 70.95 (15.06)
Attendance (%) 81.48 (14.73) 72.57 (17.46)



390 Australian Journal of Educational Technology, 2009, 25(3)

The tutorial evaluation questionnaire included a question asking students whether
they would recommend the use of the same teaching approach in the future. The
percentages of students who responded yes, no, and unsure in the Wiki group were
70%, 8%, and 22%, respectively. A similar pattern emerged in the Individual group
with 72%, 0%, and 28%, of students responding with yes, no, and unsure, respectively.
The relationship between the responses and group membership was not significant,
chi-square = 2.03, p > .05.

Qualitative comparisons between wiki and individual groups

The written responses to the questions on the tutorial evaluation questionnaire were
examined by a qualitative coding approach that followed the methods of Neuman
(2006). The statements were initially examined to group similar comments into themes.
The relationship between the themes and the fit between each statement and the theme
were then evaluated. Finally, each theme was given a label, the percentage of students
who contributed comments to the theme was calculated, and representative statements
for each were selected. As some students provided multiple statements and each
individual statement was allocated to a relevant theme, the final percentages reflect the
number of students that contributed comments for each theme.

Three positive themes emerged in the Wiki group. The first theme labeled Learning
benefits (37% of students provided statements) reflected that the wiki assisted the
students to learn about report writing and the assessment requirements. Students
commented that using the wiki “helped me improve my own assessment”, helped in
“practising for the real report”, and “learnt some more about computers”. The second
theme was labeled Technology advantages (33% of students). This theme captured the
benefits and ease of use of the wiki technology. The wiki was “easy to access”, was
“easy to save and edit”, made it possible to “work as a group from home”, and “have
easy access at home and uni”. Finally, Group work benefits (30% of students) suggested
that the wiki facilitated learning within a group through comments such as “it enabled
me to get opinions from students”, I received “help from other group members”, and
“we could discuss others thoughts and ideas”.

The positive experiences from the Individual group also yielded three themes. The first
was labeled Learning benefits (48% of students) and reflected that the tutorial work
helped students to learn how to structure and write a research report. The student’s
noted that it helped in “understanding how a stats report should be structured”, how
to write the “report, graphs and tables”, and that it made “it easier to follow the APA
format”. The theme Technology advantages (23% of students) largely reflected that the
word processing program was familiar and easy to use for the students. For example,
students commented that “I knew my way around it” and “it was easy to use”. The
third and final theme was labeled Interaction (25% of students) and it suggested that
there was interaction with others during the tutorials. The interaction included both
with the tutor (e.g. “to get help and advice from the tutor”, and “the tutor can show
exactly what it should look like”) and the class as a whole (e.g. “going through it as a
tutorial group was very helpful”).

The evaluation of the negative experiences resulted in three themes for the Wiki group.
A theme labeled Group work (37% of students) suggested that some students had
negative experiences in working with others. These included poor contributions from
other students (e.g. “only 2 of the 4 of the group contributed”), that “others can change
work that you may have wanted to keep”, and that it was “hard to speak up and get



Neumann and Hood 391

your opinions/ideas across”. The theme labeled Technology difficulties (22% of students)
reflected some problems in using the wiki in both general terms (e.g., “using wiki was
a bit challenging”) and for specific tasks (e.g., “trying to format or put figures in”, and
“punctuation errors were not found by the program”). The final theme was labeled
Time issues (41% of students). The comments suggested that some students would have
rather completed the real assignment in the time that was used. This perception is
particularly well captured by the comments “time consuming when it did not count
for anything” and “wanted to focus more time on the real assignment... rather than do
the practice method”.

Four themes emerged from comments on the negative experiences with the Individual
group. The theme of Learning problems (25% of students) reflected difficulties in the
learning experiences of students, such as “confusing overall”, “not specifically
detailed”, and “was difficult to begin”. Problems with using the word processing
software were also evident with the theme of Technology difficulties (29% of students).
The students highlighted problems in using the word processing software, such as “get
the APA format right”, “it was difficult to put the tables into APA” and
“graphs/tables/data hard to display”. The third theme was labeled Time issues (42% of
students). As noted above for the Wiki group, the comments related to students
perceiving that they would have preferred to work on the assessed report instead of a
practice report. Although only two students wrote comments related to the final
theme, it is noted here for its relevance. One student commented that they “would
have liked to be in a group instead”. Conversely, the other student stated that “if I was
able to choose between group or individual, I would remain with individual work”.
These divergent responses suggest individual variability in preferences for
collaborative versus individual work.

Evaluation of wiki participation

There were 22 subgroups formed across all the classes that employed the wiki
approach. Students were encouraged to name their group and many groups formed
inventive names that were often statistics related. Notable names included Superstats,
The Statistical Anomalies, Stems & Leaves, and Bin Buddies. To quantify the extent of
participation in the wikis, the wiki documents were examined and scored according to
the number of sections of the practice report that had been completed. One point was
awarded for each of the following sections, with a maximum of seven points possible:
Title page, Abstract, Introduction, Method, Results, Discussion, and References. As can
be seen from the distribution in Figure 1, the full range of participation was shown
with scores ranging from 0 to 7. The mean number of sections completed was 3.05 (SD
= 2.28) indicating that on average, just under half the required sections was completed.
No data was collected on the number of sections completed by students who wrote the
report individually and as such this information cannot be presented here.

Discussion

The present study evaluated the use of a wiki to promote student engagement and
learning of research report writing skills in a statistics course. The results suggested
that the design of the curriculum contributed to a reduction in statistics anxiety in
some areas (interpretation anxiety, fear of asking for help), improved computational
self concept, and increased knowledge of report writing requirements. These changes
were   observed  from   pre-test   (beginning  of  semester)   to   post-test   (after   formal



392 Australian Journal of Educational Technology, 2009, 25(3)

0

1

2

3

4

5

6

7

0 1 2 3 4 5 6 7

Number of sections of Practice Report attempted

Frequency

Figure 1: Number of sections of the practice report started
or completed by each Wiki subgroup

assessment completed) and were found regardless of whether a wiki or individual
word processing software was used in the blended learning approach. The differences
between writing a practice report using a wiki and writing the practice report
individually were found in measures of student engagement (engagement with other
students and cognitive engagement) and in attendance at the tutorials. The qualitative
evaluations suggested that there are some disadvantages to using a wiki in a classroom
setting, although many of these were shared with the individual use of word
processing software.

The wiki has been promoted as a collaborative medium by which individuals are not
merely passive recipients of information, but can become actively involved in
reviewing, editing, and adding to the documents (Leuf & Cunningham, 2001). The
present findings give some support these impressions when a wiki is implemented
within an educational context. Students who used the wiki to write the practice report
gave higher ratings on engagement with other students and cognitive engagement
than the students who wrote the practice report individually. From a sociocultural
perspective on learning (Vygotsky, 1998; Bonk & Kim, 1998), a wiki provides a
communication medium through which students can work together to construct
knowledge and share ideas. Results from the present study suggest that wikis support
collaboration among students. Moreover, through this collaboration, the students
became more cognitively engaged in the subject matter, a finding consistent with the
notion that working with others can enhance involvement in the intellectual
components of the learning process (Harasim, 1990).

Attendance tended to be higher in the classes that used the wiki approach than in the
classes in which students wrote the report individually. One interpretation of this



Neumann and Hood 393

difference is that using the wiki promoted collaborative learning among students and
enhanced their motivation to attend classes to continue this collaboration. An
alternative interpretation is that the students in the Wiki group became aware that they
were writing the practice report in a new or special way. This might have occurred via
a diffusion effect because the students from the different tutorial classes attended the
same lecture. At the lecture, the students from the different tutorial classes may have
discussed and compared the learning approach used during the tutorials. If the
students in the wiki subgroups became aware that they were writing the practice
report in a special way, this may have increased their motivation to attend class. This is
related to the Hawthorne effect, where merely observing individuals can influence the
behaviour being observed (Roethlisberger & Dickinson, 1939). The present study was
conducted in a way that attempted to minimise any such bias on behalf of the student
or tutor. For instance, the tutors were not told that a formal assessment of the wiki
teaching approach would be carried out and they did not know that pretest measures
(e.g. report writing knowledge) were taken from students. Likewise, students were not
told that some classes were writing the practice report individually and other classes
were using a wiki.

Learning is enhanced when students can become actively engaged in what they are
doing, discuss ideas with others, and obtain formative feedback on a regular basis
(Biggs & Tang, 2007). Based on the findings of greater engagement in students who
used the wiki during the tutorial classes, it might be expected that these students
should also show better learning outcomes on assessed work. However, the mark
obtained on a research report that was subsequently submitted for summative
assessment did not differ between the Wiki and Individual groups. The research report
submitted for assessment was based on a different data set than the practice report, but
had similar requirements in terms of data analysis and content. The lack of significant
differences between the groups is thus not likely to reflect discordance between the
teaching and assessment approaches. Rather, the results may reflect that the students
in each group had access to other resources to help them complete the assessed report.
Students in each group attended the same lectures, followed the same lesson plans in
the tutorial classes, and had access to an online discussion board. Each of these factors
may have weakened the strength of the experimental manipulation in terms of the
effects of the writing approach on learning outcomes.

The effects of using a wiki on student learning outcomes (i.e. grades) may be stronger
when a wiki is implemented in alternative teaching contexts. The present application
was based on a blended learning approach (Heinze & Procter, 2004) in which the wiki
was integrated with face to face teaching. A stronger effect on learning outcomes may
be found when the wiki is used to supplement courses that have an entirely online
mode of delivery (see Choy & Ng, 2007 for one such example). However, this
suggestion is tentative and requires empirical validation. Another point is that the
present teaching context was centred on the discipline of statistics. Although statistics
has been argued to be a collaborative discipline (Ben-Zvi, 2007), prior research has
indicated that the wiki may be more effective in disciplines that value open ended
discussion and reflection through writing, such as courses on English composition
(Rick & Guzdial, 2006). Nevertheless, the present results suggest that a wiki may
promote engagement and discussion among students even in the statistics classroom.

Another important issue to consider when evaluating the effects of an instructional
method on student learning outcomes is the extent to which the students participated



394 Australian Journal of Educational Technology, 2009, 25(3)

in the method. The full range of participation was observed in the present study. Two
wiki subgroups did not attempt any components of the practice report, whereas two
subgroups compiled complete and well-written practice reports. The remaining 18
subgroups produced limited to partially complete reports. The effects of using a wiki
on student learning and engagement may have been limited in this study due to the
relatively low participation across the wiki subgroups. Further research would be
required to determine whether the learning benefits are enhanced when there are
higher levels of participation. A further implication of the low levels of participation
by some students is that it raises the question of whether those students with limited
engagement can provide informed reports on their experiences in using the wiki.
While these students may be able to report on some aspects in using the wiki, their
limited experience would be expected to restrict their depth of insight into the benefits
of the wiki approach. However, it might also be the case that these students may give
particularly important insights into the problems associated with the wiki. Technical
issues and difficulties when working in a group emerged as negative themes in the
Wiki group and it could be the case that these issues caused the low levels of
participation in some students. Reports on negative experiences can be valuable
because they provide information on what needs to be addressed when revising and
improving a curriculum.

The relatively low level of completion of the practice report by students in the Wiki
group may reflect that although students were encouraged, they were neither enforced
nor rewarded for participation (e.g. through assessment). Ebner et al. (2008) showed
that of 287 university students, none created new articles or edited existing ones across
an entire semester, when no rewards or incentives were offered for participation.
Ebner et al. report that the main reasons why students did not participate included not
having time (27%), no perceived benefit (12%), not trying (18%), and problems editing
articles (24%) among others. Some of these themes also emerged in the qualitative
feedback in the present study (e.g. time issues). As the present results and those of
Ebner et al. indicate, using an interactive and collaborative technology will not
necessarily translate into active engagement by students.

Participation in using the wiki might be enhanced if it was integrated with course
assessment. Trentin (2009) has recently described a method that allows the evaluation
of the contributions made by individual students to a wiki document. Importantly, this
approach has the advantage of providing individual accountability and feedback to
students within a collaborative learning environment. It might be argued that using
assessment purely for the purpose of promoting participation in the wiki goes against
the basic philosophy of why wikis were first developed. However, it does reflect there
can be different motivations underlying the use of technology when that technology is
employed in different contexts. Alternative approaches to using assessment could also
be explored. For example, the teacher could emphasise more to students the affective
and intellectual benefits of active participation.

The qualitative responses suggested that students had both positive and negative
experiences when using the wikis. Students reported that the wiki helped their
learning, the technology was easily used, and it facilitated interaction among
individuals in the group. The first two themes, learning benefits and technology
benefits, were also expressed by students who completed the practice report
individually, although the technology benefits were related more to familiarity with
the word processing software. Overall, these themes suggest that a wiki can be



Neumann and Hood 395

implemented effectively in a blended learning approach to support student learning.
Negative experiences were also reported by the students. Not all students found the
wiki technology easy to use and some students expressed dissatisfaction with the
amount of effort and participation from other members of the group. Some of these
negative experiences with the technology could be addressed by providing students
with more extensive training on using the wiki. Participation from other group
members could be enhanced by forming the wiki subgroups later in the semester, at a
time at which more students will have formed social relationships with others. In
addition, larger groups might be used so that the lack of participation from one or two
students has less impact.

The approach used in the present study was primarily experimental in which cluster
sampling was used to randomly assign tutorials classes in a course to write the practice
report using the wiki or individually. Pretest and posttest measures of student
engagement, learning, and attitudes were taken for most measures. While this
approach affords good control over several threats to validity when compared to other
approaches (e.g. a quasi-experimental approach or approaches that lack a control
group), some limitations did emerge. For instance, because the students in the different
tutorials classes were part of the same university course and attended the same lecture,
it is possible that there could have been diffusion of treatment effects. Students in the
Wiki group may have interacted with students in the Individual group to share ideas,
experiences, or resources. In addition to the Hawthorne effect noted earlier, the sharing
of experiences among students could have had the effect of reducing the differences
between the Wiki and Individual groups on the dependent measures like report
writing knowledge and the grade obtained on the assessed report.

In addition, it would have been beneficial to have taken measures from students at
regular intervals after the classes began, rather that having a single posttest measure at
the end. In doing this, it would have been possible to determine whether the Wiki and
Individual writing approaches differed in how quickly things were learnt (e.g. report
writing knowledge) or whether levels of engagement differed across time. In addition,
a more formal evaluation may have been able to identify the low participation by
students in some wiki subgroups and to develop effective means to increase
participation in these students. Finally, no data was collected on how many sections of
the practice report were completed by students in the Individual group. It would be
useful for future research if this information was collected to allow a comparison on
the extent of participation between students who wrote the report using a wiki and
those that wrote the report individually.

Conclusion

In conclusion, the present study suggests that there can be benefits to student
engagement when a wiki is employed as part of a blended learning approach.
However, there was no evidence that the wiki improved learning outcomes over and
above similar work conducted on an individual basis. The outcomes of the present
study seem to fall in between prior reports of wholehearted success (e.g. Guzdial et al.,
2001) and disappointing failure (Ebner et al., 2008) when wikis are used to support
student learning. The lack of an explicit incentive in terms of course assessment or
other means of enforcing participation may relate to differences in the outcomes in
prior research (Ebner et al., 2008). The present study also suggested that there is
substantial variability among students in participation and preferences for



396 Australian Journal of Educational Technology, 2009, 25(3)

participation in the wiki (e.g. one student preferred to work in a group, whereas
another student preferred to work individually). Notably, in a study that examined
responses on a student survey, Elgort et al. (2008) concluded that the use of wikis may
not necessarily counteract student preferences for individual work rather than group
work. Further research is required to determine whether and how individual
preferences, the teaching context, and the discipline area influence the effectiveness of
wikis in educational applications. The present findings suggest that student
engagement, but not performance on assessment, may be enhanced when a wiki is
used to support learning of research report writing skills in a university statistics
course.

Acknowledgments

Thanks to Roger Moni and two anonymous reviewers for commenting on an earlier
draft of this article.

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Dr David Neumann, School of Psychology - Gold Coast, Gold Coast Campus, Griffith
University, QLD 4222, Australia Email: D.Neumann@griffith.edu.au
Web: http://www.griffith.edu.au/health/school-psychology/staff/dr-david-neumann

Dr Michelle Hood, School of Psychology - Gold Coast, Gold Coast Campus, Griffith
University, QLD 4222, Australia. Email : michelle.hood@griffith.edu.au
Web: http://www.griffith.edu.au/health/school-psychology/staff/dr-michelle-hood