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Australasian Journal of
Educational Technology

2007, 23(1), 87-109

Towards meaningful learning through digital
video supported, case based teaching

Päivi Hakkarainen, Tarja Saarelainen and Heli Ruokamo
University of Lapland, Finland

This paper reports an action research case study in which a traditional
lecture based, face to face Network Management course at the University of
Lapland’s Faculty of Social Sciences was developed into two different course
versions resorting to case based teaching: a face to face version and an online
version. In the face to face version, the teacher designed and produced three
digital video supported case studies with the students to be used as learning
material for the online version. The research focuses on finding out the
student perspective on the following questions: (1) Can designing and
producing digital video supported cases constitute a meaningful learning
process for the students? (2) Can solving digital video supported cases in an
online course support meaningful learning for the students? and (3) What
roles do the digital videos play in the online students’ meaningful learning
process? The research indicates that both designing and producing, as well
as solving the digital video supported cases, promoted especially the active
and contextual aspects of the students’ meaningful learning as well as the
students’ positive emotional involvement in the learning process. Several
implications for further development of the Network Management course
and for the development of university teaching across disciplines can be
drawn from the results.

Introduction
This paper reports an action research case study in which a traditional
lecture based, face to face Network Management course at the University of
Lapland’s Faculty of Social Sciences was developed into two different
course versions resorting to case based teaching (Enkenberg, 2001;
McLellan, 2004): a face to face version and an online version. In the face to
face version the teacher designed and produced three digital video
supported case studies with the students for the online version to be used
as learning material (see Hakkarainen & Saarelainen, 2005a). The aim of the
research was to develop the teaching and learning processes realised and
learning outcomes achieved on the Network Management course, which
focuses on the area of public administration and management.



88 Australasian Journal of Educational Technology, 2007, 23(1)

The general aim of this action research has arisen from challenges faced by
higher education, resulting from changes in working life and advances in
digital video (DV) technology (Jonassen, Howland, Moore & Marra, 2003;
Kearney & Schuck, 2004, 2005). Working life requires increasingly
specialised expertise and constantly changing responsibilities, and
circumstances in the workplace necessitate flexibility, mobility and
constant improvement of one’s abilities. These challenges have been
argued to relate to the problem solving skills of both experts working
outside universities and researchers and teachers at universities. Case
based teaching has been identified as an approach that has potential to
meet these challenges (Enkenberg, 2001).

Regarding teaching of public administration, one of the most important
reasons for transforming traditional lecture based courses into online
courses is new forms of state organisation which integrate the interactions
and interrelations between the state and the citizens, private businesses,
customers, and public institutions, through the deployment of modern
information and communication technologies (ICTs) (Schedler,
Summermatter & Schmidt, 2004). Therefore, staff in public administration
will need skills to operate in different kinds of electronic environments.

The term government is replaced by the term governance that refers to
shifts in the operational environment. The government as a vertical, top
down relationship is replaced more and more often by horizontal
relationships. As a consequence of this transformation, the former public
hierarchies have become replaced by networks, dominated by the
insecurity of interdependencies (Snellen, 2005). Therefore, the operational
environments of employees in public administration set up new
qualifications that should be practised already in education. Online courses
follow the transformation of the real working life from the viewpoint of
both substance and practice.

Despite technological advancements, the pedagogical possibilities afforded
by DV are presently still largely unrealised in teaching at the university
level, with some exceptions such as medicine (e.g. Wiecha, Gramling,
Joachim & Vanderschmidt, 2003), teacher education (Brophy, 2004), and
foreign languages teaching (e.g. Forger, Lyddon & Penfield, 2005). In depth
research into the educational use and especially production of DV in higher
education is scarce (Jonassen et al., 2003; Kearney & Schuck, 2004, 2005).
The existing research has nevertheless suggested that the use of DVs can
stimulate students’ emotions and enhance the authenticity of learning
(Bliss & Reynolds, 2004) and that the production of DVs can enhance
university students’ motivation, supporting especially the creative and
active aspects of learning (Hung, Keppell & Jong, 2004).



Hakkarainen, Saarelainen and Ruokamo 89

Theoretical backround
Teaching and meaningful learning

In this research teaching and learning are seen as logically distinct
processes that are in a reciprocal relationship with each other (Ausubel,
Novak & Hanesian, 1978). Anderson, Rourke, Garrison and Archer (2001)
have proposed the concept of teaching presence, which includes: (1) design
and organisation, (2) facilitating discourse, and (3) direct instruction.
However, teaching performed by the teacher does not necessarily lead to
students’ learning (Engeström, 1982). The concept of learning refers in this
research to (1) students’ learning processes, and (2) students’ learning
outcomes. Learning outcomes are a very complex issue, especially since
learning is by nature unconscious; students cannot necessarily learn by
simply deciding to learn something (Ausubel et al., 1978; Kansanen et al.,
2000; Yrjönsuuri & Yrjönsuuri, 2005). This research draws upon the model
for teaching and meaningful learning (TML), which is presented in Figure
1. The model has been developed on the basis of the integrated model of
network based education (NBE) introduced by Vahtivuori et al. (2003). In
the model, the concept of network refers to both collaborative and
technological networks.

Figure 1: TML model for teaching and meaningful learning.

Design and
organisation of
the learning
environment for
students’
meaningful
learning

Support and
guidance for
students’
meaningful
learning

Teaching
Process
characteristics

1) Active
2) Self directed
3) Constructive
4) Individual
5) Collaborative
6) Conversational
7) Contextual
8) Emotionally

involving
9) Goal oriented
10) Reflective
11) Abstract
12) Multiple

perspectives
oriented

Meaningful Learning
Outcomes

1) Domain specific
knowledge

2) Transferable, generic
skills:

 Information literacy
 Metacognition
 Problem recognising,

identifying and solving
 Higher order thinking:

critical thinking, creative
thinking, reasoning,
planning, analysing

 Abstract thinking
 Collaboration and

cooperation
 Communication
 ICTs
 Self-directed learning

Pedagogical
models or
approaches,
e.g.

Case based
teaching

Problem based
learning



90 Australasian Journal of Educational Technology, 2007, 23(1)

Meaningful learning is in this research understood as an upper level
concept that can be realised through various pedagogical models or
approaches. In this research, a case based teaching approach was applied.
It has been argued to offer a valuable instructional strategy for both face to
face courses and online courses (McLellan, 2004), across disciplines
(Barnes, Christensen & Hansen, 1994). It has been acknowledged as one of
the instructional models, in addition to others, for example problem based
learning (PBL), suited for developing of university teaching (Enkenberg,
2001). The strength of the approach has been argued to lie in enhanced
learner interest and engagement, and also in improved skills in retention,
problem solving and critical thinking (McLellan, 2004). Case based
teaching provides a learning environment in which students exercise the
skills of problem solving, decision making, collaboration, analysing,
criticising, making judgments, and expressing reasoned opinions, while
facing realistic problems. McLellan (2004, pp.14-15) defines an ideal case as
“an open-ended story that calls for complex, subtle information from
multiple points of view”.

Meaningful learning is defined through 12 process characteristics and
expected outcomes, including students’ (1) domain specific knowledge and
(2) transferable, generic skills (NCVER, 2003; Tynjälä, 2001).  The process
characteristics of meaningful learning include the critical factors fostering
the development of generic knowledge and skills (CDSL & CLREP, 2000),
that is, skills that apply across a variety of jobs and life contexts. This
research acknowledges the crucial meaning of all the three components of
the TML model: teaching, meaningful learning process, and learning
outcomes. However, the focus of this paper is mainly on the realisation of
the process characteristics of meaningful learning.

Characteristics of meaningful learning

The characteristics of meaningful learning used in this research have been
constructed from the characteristics of meaningful learning by Jonassen
(1995, 2000, 2002), Jonassen et al. (2003), Ruokamo and Pohjolainen (2000),
Ruokamo (2001), and Ruokamo, Tella, Vahtivuori, Tuovinen and Tissari
(2002). In addition, Soini’s characteristics of good learning situations (1999;
Flynn & Soini, 2000) were selected because of his emphasis on the role of
emotions and on the awareness of different perspectives in good learning
situations. Worth noting is that the characteristics are very much in
accordance with the set of characteristics introduced by Herrington, Oliver
and Reeves (2003; see also Herrington & Oliver, 1995) in their discussion on
authentic activities within online learning environments. The selected
characteristics of meaningful learning and the characteristics from which
they were selected are presented in Table 1. The characteristics guided the
design of the course and the evaluation of the students’ experiences.



Hakkarainen, Saarelainen and Ruokamo 91

According to these characteristics, meaningful learning is (1) active, (2) self-
directed, (3) constructive, (4) individual, (5) collaborative, (6)
conversational, (7) contextual, (8) emotionally involving, (9) goal oriented,
(10) reflective, (11) abstract, and (12) multiple perspectives oriented.

Table 1: Characteristics of meaningful learning utilised in the research,
and the characteristics from which they were constructed.

Characteristics
selected

Jonassen
(1995, 2000,

2002)

Jonassen et al.
(2003)

Ruokamo &
Pohjolainen

(2000);
Ruokamo

(2001);
Ruokamo et al.

(2002)

Soini (1999);
Flynn & Soini

(2000)

1. Active Active Active
(manipulative/
observant)

2. Self directed - -

Active and
Self directed

Autonomy

3. Constructive Constructive Constructive
(articulative/
reflective)

Constructive
and cumulative

-

4. Individual - - Individual -
5. Collaborative Collaborative Cooperative

and communal
Collaboration

6. Conversat-
ional

Conversational

Cooperative
(Collaborative/
conversational) Conversational

and interactive
Dialogue

7. Contextual Contextualised  Authentic
(complex/
contextualised)

Contextual and
situational

-

8. Emotionally
involving

- - - Emotional
involvement

9. Goal oriented Intentional Goal oriented
and purposive

-

10. Reflective Reflective

Intentional
(reflective/
regulatory) Reflective Reflection and

feedback
11. Abstract - - Abstract -
12. Multiple
perspectives
oriented

- - - Possibility to
see things from
new or different
perspectives

The characteristics provide a fairly wide and general enough perspective
from which to assess learning processes within different subject areas (see
also Karppinen, 2005). Meaningful learning processes should, nevertheless,
not be understood as processes in which all of these characteristics are met
all the time.  In addition, the characteristics are intertwined,
interdependent, interactive, partly overlapping, and synergetic (Jonassen et
al., 2003), and should therefore be seen as flexible by nature (Ruokamo et



92 Australasian Journal of Educational Technology, 2007, 23(1)

al., 2002). In the following paragraphs a concise description of the process
characteristics of meaningful learning is presented and the role of DVs is
discussed.

For Jonassen, (1) active learning means that “learners are engaged by the
learning process in a mindful processing of information, where they are
responsible for the result” (1995, p.60). Students are encouraged to ask
questions, acquire information, critically evaluate information, express new
ideas and models of thinking (Ruokamo et al., 2002), and use different
productivity tools and cognitive tools (e.g. videos) in their learning
environments (Jonassen, 1995, 2000). (2) Self direction in learning refers to
“a process in which a learner assumes primary responsibility for planning,
implementing, and evaluating the learning process” (Brockett & Hiemstra,
1991, p.24). The concept is thus intertwined with the characteristics of
activeness, goal orientedness, and reflection. (3) Constructive learning
means that learners accommodate new ideas into their prior knowledge in
a process of meaning making, not of knowledge reception (Jonassen, 1995,
2002). For Ruokamo et al. (2002), (4) individuality means that learners have
individual learning styles and strategies and that learning and studying are
always influenced by students’ prior knowledge, conceptions and interests.

Working (5) collaboratively makes it possible that students can exploit each
other’s skills and provide social support and modeling for other students.
Collaborative and (6) conversational learning is a dialogue, that is, a
process of internal and social negotiation. (Jonassen, 1995, 2002.) At its best,
collaborative work also provides students with opportunities for a positive
sense of social inclusion, which can be seen as an important component of
motivation to learn (Wosnitza & Nenniger, 2001). (7) Contextual learning
resorts to learning tasks that are either situated in meaningful, real world
tasks or simulated through a case based or problem based learning
environment (Jonassen, 1995, 2000).

(8) Emotion is intertwined with cognition, motivation and learning by
affecting perceptions, theoretical imagination, and logical reasoning
(Puolimatka, 2004; Schutz & DeCuir, 2002). According to Soini (1999, p.84),
emotional involvement is the most important feature of good learning
situations for the students and it emerges from “feelings of personal,
emotional connectedness to some subject.” Positively toned emotions
experienced during the learning process such as interest, joy, surprise
(Puolimatka, 2004), and emotions resulting from mastery experiences
(Bandura, 1994; Engeström, 1982) have been shown to be vital for learning.
However, a successful learning process may also include occasional
negatively toned emotions (Kort & Reilly, 2002; Liimatta & Karppinen,
2003; Op’t Eynde, De Corte, & Verschaffel, 2001).



Hakkarainen, Saarelainen and Ruokamo 93

In a (9) goal oriented learning process, students work actively to achieve a
cognitive goal, and can define learning objectives of their own (Jonassen,
1995; Ruokamo & Pohjolainen, 2000). Intertwined with goal orientation is
the process of (10) reflection (Jonassen, 1995, 2000). In a reflective learning
process, students express what they have learnt and examine the thinking
processes required during the process (Jonassen, 1995; Ruokamo &
Pohjolainen, 2000). (11) Abstract learning can be defined as the
construction of new ideas at an abstract level. The development of
theoretical ideas reaches from practical experience to a deeper level
(Lehtinen, 1997; Ruokamo et al., 2002). Soini (1999) argues that learning
situations that (12) lead to an awareness of different perspectives are
experienced by students as good and real learning situations.

DVs should accordingly function as tools for meaningful learning by
representing and simulating meaningful, real world situations, problems or
contexts; by representing the beliefs, perspectives and stories of others; and
by supporting discourse among pupils. (Jonassen, 1995, 2000; see also
CTGV, 1993; Ruokamo, 2001; Ruokamo et al., 2002). In order to support
meaningful learning, students should be critical users and producers,
rather than consumers, of DVs. Producing videos requires students to
engage in more active, constructive, intentional, authentic and cooperative
roles and in critical and creative thinking. (Jonassen et al., 2003.)

Research objectives and questions
The objectives of this action research case study were to develop the
teaching and learning processes realised and learning outcomes achieved
on the Network Management course, in order to better support meaningful
learning. The research focuses on finding out the student perspective on
the following questions:

1. Can the face to face, case based teaching approach applied on the
course, that is, designing and producing digital video supported cases,
support a meaningful learning process for the students (see Jonassen et
al., 2003)?

2. Can the digital video supported, online, case based teaching approach
applied on the course, that is, solving digital video supported cases,
support meaningful learning for the students from both the process and
outcome point of view (see CTGV, 1993;  Enkenberg, 2001; Jonassen,
1995, 2000; McLellan, 2004; Ruokamo, 2001; Ruokamo et al., 2002)?

3. What roles do the digital videos play in the students’ meaningful
learning process from the perspective of the digital video supported,
online, case based teaching approach applied on the course (see
Jonassen et al. 2003)?



94 Australasian Journal of Educational Technology, 2007, 23(1)

Research methods
The research was conducted in 2004-05 as an action research case study in
which the teacher worked alongside the researcher with the assistance of
an extensive network of actors (see Hakkarainen & Saarelainen, 2005a). The
research functioned as “a small scale intervention in the functioning of the
real world and a close examination of the effects of such an intervention”
(Cohen & Manion, 1994, p.186). The research process followed Lewin’s
(1948) definition of the main stages of an action research process: planning,
acting, observing and reflecting.  The planning stage took place in April-
August 2004. Both versions of the Network Management course were
realised, and the research data was collected during September 2004-April
2005. During the academic year 2004-05 the course was arranged in two
different versions: the face to face version and the online version. All the
course activities and the research questionnaire were conducted in Finnish.

The face-to-face version of the Network Management course

The face to face version was implemented in autumn 2004 with eight
students. These students produced the DV supported cases for the online
version of the course that was implemented during spring 2005. The three
DVs produced were simulations of possible social situations related to the
open ended, real life cases. Their function was to illustrate the cases and to
act as the starting point and context for learning. The duration of the videos
varied from 13 to 20 minutes and they were distributed to the online
students in CD format. The real life cases were selected after reading
theoretical articles on the topics of the course. The students received 2
ECTS (European Credit Transfer System) credits for designing and
producing one filmed case. The first case dealt with a current, sometimes
heated debate on how to develop the local Ounasvaara ski and recreational
area. The students interviewed experts from local organisations
representing the debate in real life. The video portrayed a meeting in which
the local experts debated the issue. Each student acted out the role of the
local expert who she/he had interviewed (Figure 1).

The second case, the Finnish Sports Federation, was chosen as the
organisation whose networking competence was to be measured, and the
video portrayed a meeting related to the issue. Again, the students and the
teacher were acting on the video. The third case was chosen by the teacher
and it was based on research into the innovation networks and network
management strategies applied in these cases. The interviews for the
research were done by the teacher (see Aho, Saarelainen, & Suopajärvi,
2004). The video portrayed the students and the teacher discussing a local
municipality innovation project. The students were responsible for the



Hakkarainen, Saarelainen and Ruokamo 95

scriptwriting and acting on the videos, while the actual shooting and
editing was done by a professional video production unit.

Figure 1: A screenshot of the first digital video.

The online version of Network Management course
The students (n=33) enrolled in the online version used the three DV
supported cases as their learning material. Other learning material
included scientific articles, a book, web pages related to the real life cases,
and the PowerPoint slides for the introductory lecture. The students came
from different parts of Finland and their age varied between 22 and 5 1
years. 77 % of the respondents were female. The timeline of the course was
two months. The course started with a four hour introductory, face to face
lecture, after which the students engaged in case based online studying in
groups of 3 to 5 students. The Finnish Discendum Optima learning
management system (Figure 2) resembling others such as WebCT and
Blackboard was used for providing guidance for the students, for small
group conversations, for delivering the course materials, and for preparing
the learning tasks. The pedagogical rationale for the online course was to
support students’ skills in operating in electronic environments, which are
increasingly becoming the operational environments of employees in
public administration.

As their collaborative learning task, the small groups wrote future
scenarios (Case 1), planned the measurements for the self evaluation of
networking activity (Case 2), and devised a networking strategy for a local
innovation network (Case 3). The students’ learning outcomes were
assessed with grades 1-3. The assessment was based on the learning tasks
and on the students’ learning diaries.



96 Australasian Journal of Educational Technology, 2007, 23(1)

Figure 2: A screenshot of the Discendum Optima
learning management system.

Data gathering and analysis
The first research question was: “Can the face to face, case based teaching
approach applied in the course, that is, designing and producing DV
supported cases, support a meaningful learning process for the students?”
To answer the question, the DV production diaries of the 8 students
enrolled in the face to face version of the course were utilised. The students
were instructed to write a diary on their thoughts and emotions concerning
the DV production process. The students were able to access each other’s
diaries in the Discendum Optima learning environment. The diaries
contained 3 to 11 entries. A qualitative content analysis was performed on
the diaries with respect to the 20 emotions chosen for this research.

Q u e s t i o n n a i r e s  completed by the online students were utilised for
answering the second research question: “Can the DV supported, online,
case based teaching approach applied in the course, that is, solving DV
supported cases, support meaningful learning for the students, both from
the process and outcome point of view?” Out of the 33 students enrolled on
the course, 30 completed the course and the questionnaire. The
questionnaire included 31 statements concerning the meaningfulness of the
learning process, and the students were asked to evaluate them using a
five-point Likert scale. The statements were operationalised according to



Hakkarainen, Saarelainen and Ruokamo 97

the characteristics of meaningful learning chosen for this study, utilising in
part the already existing operationalisations by Nevgi and Tirri (see Nevgi
& Löfström, 2005). 21 Likert scale questions on the questionnaire focused
on the students’ emotions. The students were asked to indicate to what
extent they had experienced a given emotion during the course and to
specify the reasons for this emotion. 12 of the 20 emotions listed in the
questionnaire were chosen from the emotions suggested by Kort and Reilly
(2002) as possibly relevant to learning: worry, comfort, boredom, interest,
frustration, uncertainty, dispiritedness, disappointment, satisfaction,
enthusiasm, tension, and embarrassment. These emotions were considered
lacking in social emotions possibly relevant to collaborative learning: trust,
sense of community and irritation. Therefore, these emotions were added
on the questionnaire, as well as joy, stress, relief, feelings of inadequacy,
and challenge.

The questionnaire data was analysed qualitatively and quantitatively using
the S P S S statistical analysis software. The mean values, standard
deviations, and percentages of the students’ ratings of the practical
realisation of the characteristics of a meaningful learning process were
extracted (Table 2). The emotions were analysed by extracting the mean
values and the standard deviations of the students’ ratings (Figures 4 and
5). Being a case study and not seeking statistical significance (Cohen,
Manion, & Morrison, 2003), quantitative analysis was applied as a tool for
describing and interpreting the data. The factor analysis of the emotions,
documented on the previous research paper (Hakkarainen & Saarelainen,
2005b) proved erroneous due to typing errors on the original data matrix.
A rerun of the analysis with the corrected data proved the Kaiser-Meyer-
Olkin (KMO) measure for sampling adequacy not high enough (.440).

Questionnaires completed by the online students were utilised for
answering the third research question: “What roles do the DVs play in the
students’ meaningful learning process from the viewpoint of the DV
supported, online, case based teaching approach applied on the course?”
The questionnaire included both Likert scale statements and open ended
questions focusing on the pedagogical role of the DVs. The data was
analysed quantitatively by extracting the percentages of the students’
ratings, and qualitatively with respect to the themes that were found in the
students’ answers to the open ended questions.

Research findings
In the following, the research findings concerning the meaningfulness of
learning for the students are presented with respect to (1) the students
designing and producing the DV supported cases, face to face, and (2) the



98 Australasian Journal of Educational Technology, 2007, 23(1)

students solving the DV supported cases online. Thirdly, the research
findings concerning the role of the DVs in the meaningful learning process
are presented.

The meaningfulness of learning for the students designing and
producing the cases

The students’ learning diaries clearly indicate that the face to face, case
based teaching approach applied on the course, that is, designing and
producing the DV supported cases, contributed to the students’ positive
emotional involvement in the learning process. The collaborativity,
conversationality, activeness, and contextuality of the learning process
were most clearly associated with positively toned emotions in the
students’ diaries.  Jonassen et al.’s (2003) arguments about the active,
constructive, cooperational, and authentic characteristics of students’ video
production were thus further confirmed. In addition, the analysis unfolded
the positively toned emotions relating to these characteristics.

All in all, the students reported more frequently positively toned than
negatively toned emotions. Satisfaction was reported by all of the students.
It was mainly related to (1) meetings with the study group, (2) choosing a
local case to be simulated, (3) being able to produce learning material for
others, and (4) the case based approach as compared to learning through
reading books (see also McLellan, 2004). For one respondent the approach
had functioned as a bridge between studying and working life:

I also learned to view my studies against the background of my future
working life, for after years of learning from books one may forget the
reason behind the activity. The concrete cases in which we were the actors
increased my motivation so much that now I’m really anxious to enter
working life.

Feelings of interest were reported by seven of the eight students. The
reasons included the new way of studying, the general topics of the course,
and the fact that local cases were chosen to be simulated. The results point
out the benefits of examining local issues for students’ emotional
involvement. Jonassen et al. (2003) have even argued that by producing
video documentaries about local issues, students become more concerned
members of society. Choosing the local Ounasvaara case for simulation
changed the emotional tone from discomfort, caused by a “distant” case, to
interest and enthusiasm. Two of the respondents noted:

I just figured that the Dutch zinc case was a bit too remote, and you
probably couldn’t get as much out of it as you could of a case more closely
related to Finns or the people of Lapland. That is why I was happy we could
come up with the idea of choosing Ounasvaara as our subject.



Hakkarainen, Saarelainen and Ruokamo 99

Having thought about it, a more familiar subject also feels more natural to
accomplish. It is also much easier to become interested in a subject and
thereby motivated to work when the issue has affected you or is otherwise
closer to your thoughts.

Designing and producing the cases was also experienced as a reason for
negatively-toned emotions. There was uncertainty about what was actually
expected of the students and what it meant in practice to produce the DVs.
Clearly, the DV-supported case-based teaching approach implies a change
in the more traditional ways of teaching and learning, and students may
experience difficulties with orienting in this new situation as the following
quotes by the respondents indicate:

The whole idea of preparing teaching material on the web seemed a bit
confusing at first, so I attended the first meeting feeling a bit uncertain.

I thought: How does one make a manuscript on such an extensive amount of
material? How long do we have to shoot to be able to edit a five-minute
scene? How do we gain credits from this?

The students noted that they had worried about whether they would
succeed in scriptwriting and acting. They had also been nervous about the
interviews with the experts in the local organisations and about acting on
the video. However, these initial negatively toned emotions turned into
feelings of trust, satisfaction, and enthusiasm. The meetings with the study
group, guided by the teacher, were considered the turning point in many
cases. The teacher’s role was thus seen as a decisive and positive one by
many students. The crucial meaning of guidance (Engeström, 1982; Nevgi
& Löfström, 2005) is therefore once again confirmed.

The meaningfulness of learning for the students solving the cases

Table 2 presents the questionnaire data focusing on the practical realisation
of the process characteristics of meaningful learning.  The data indicate that
the DV supported, online, case based teaching approach, that is,  solving
DV supported cases on an online course, supported a meaningful learning
process for the students, especially with respect to the following
characteristics: activeness, constructivity, contextuality, abstractness,
reflectivity, and multiple perspectives orientedness. 80- 97% of the
respondents agreed or moderately agreed with the statements focusing on
these characteristics, which is a highly encouraging result. The result points
to the pedagogical possibilities of the case based teaching approach applied
in this research (Enkenberg, 2001; McLellan, 2004) for promoting students’
meaningful learning processes.

However, on a course resorting to collaboration, the individuality and the
self   directedness   of  the   learning   process   may   partly   diminish.   The



100 Australasian Journal of Educational Technology, 2007, 23(1)

Table 2: The students’(n=30) ratings (1 = disagree, 2 = moderately
disagree, 4 = moderately agree, 5 = agree) of the practical realisation

of the meaningful learning process on the Network Management course.
Process

characteristic of
meaningful

learning

Mean
value

Std
dev

Moderat-
ely agree
/Agree

%

Statement on the questionnaire
 focusing on the process

characteristics

1. Active 4.40 0.72 86.6 Students’ role is to actively acquire,
evaluate, and apply information.

3.47 1.17 53.3 I was able to influence the content of my
learning tasks.

3.90 0.96 70.0 The case related discussion groups
directed their own studying process.

2. Self directed

4.17 0.87 86.6 I was able to evaluate my own learning
during the course.

4.20 0.85 80.0 I was able to utilise my prior knowledge
about the course topics.

3. Constructive

4.33 0.66 90.0 The course deepened my understan-
ding of what I had learned before.

3.41 1.38 51.7 It was possible for me to study
according to my own personal style.

4. Individual

3.93 1.02 66.7 I was able to apply my own practical
experiences during the course.

3.63 1.19 60.0 The students were committed to
collaboration.

5. Collaborative

3.43 1.22 56.7 Working in small study groups helped
me to learn.

2.93 1.02 26.7 Course discussions on chat helped me to
learn.

6. Conversational

3.07 1.02 30.0 Case related, small group discussions on
the discussion area helped me to learn.

7. Contextual 4.33 0.55 96.7 Case based studying helped me to learn.
9. Goal oriented 3.93 0.83 76.6 Studying enabled the achievement of

my personal goals.
10. Reflective 4.17 0.87 86.6 I was able to evaluate my own learning

during the course.
11. Abstract 4.30 0.79 86.7 On the course practical examples were

studied in a theoretical framework.
12. Multiple

perspectives
oriented

4.17 0.75 86.6 The course helped me to understand
different perspectives related to the
topics under study.

percentage of students agreeing with the statement indicating that they
were able to study according to their own personal style was relatively
small (52 %). However, the data doesn’t allow for inferences about whether
the students would have wanted a more individual or self directed
learning process. The collaborativity of the process was not seen to support
learning in the way the case based studying was. 57% of the respondents



Hakkarainen, Saarelainen and Ruokamo 101

agreed or moderately agreed that collaborative studying in small groups
helped them to learn. However, it can be argued that collaboration helped
the respondents to learn also through the positively toned emotions
associated with it.

The students’ ratings for the supportive role of the online discussions on
chat and on the discussion area clearly stand out from the results. The great
majority of the respondents were not convinced about whether they had
actually helped them to learn. Interpreted with the students’ ratings on the
teachers’ support and guidance activities, it indicates a need to enhance the
guidance. The students were asked to rate nine statements focusing on the
teachers’ support and guidance activities, which have been shown to be
crucial for meaningful learning (see Nevgi & Löfström, 2005). The
statements were rated somewhat less favourably (M = 3.50-3.80, SD = 0.66-
1.00) than the other statements on the questionnaire, but still 60 to 73% of
the respondents agreed or moderately agreed with these statements. An
exception to this was the statement: “The teacher supported my studying
and learning significantly by giving personal feedback about my
studying,” (M = 2.37, SD = 1.00) with which only 40% of the respondents
agreed or moderately agreed.

Three statements on the questionnaire focused on the transferability of the
learning outcomes. 90% of the respondents agreed or moderately agreed
with the following statement: “I can utilise what I learned on the course in
other situations” (M = 4.43, SD = 0.77), and 93% agreed with the statement
“Cases under study supported the acquisition of knowledge and skills
needed in working life” (M = 4.43, SD = 0.63). However, the respondents
were not as unanimous about whether the studying had enhanced their
problem solving skills, with which only 56% agreed or moderately agreed
(M = 3.57, SD = 1.14). This finding does not unequivocally support the
argument about the ability of case based teaching approach to improve
students’ problem solving skills (see McLellan, 2004).

The positive emotional involvement of the students solving the DV
supported cases was evident, thus supporting the notion of the case based
teaching as an approach able to enhance learner interest and engagement
(McLellan, 2004). The mean values of the respondents’ ratings of the
positively toned emotions (Figure 4) were clearly higher than those of the
negatively toned emotions (Figure 5). The students reported that feelings of
challenge (M = 3.37, SD = 0.62), interest (M = 3.27, SD = 0.79), and
enthusiasm (M = 3.00, SD = 0.79) had the highest intensity and were
associated with the topics of the course, the learning materials, the learning
tasks, the locally oriented cases under study, and the small group work.
This is an encouraging result, given the crucial meaning of these emotions
for a successful learning process (Engeström, 1982; Puolimatka, 2004).



102 Australasian Journal of Educational Technology, 2007, 23(1)

Satisfaction (M = 2.77, SD = 0.77), joy (M = 2.70, SD = 0.84) and relief (M =
2.60, SD = 1.04) were associated with completing the cases successfully. The
course was thus able to offer the students “plateaus”, that is, periods
during which the students are able to solve the assignments resulting in
success experiences necessary for maintaining motivation for learning
(Engeström, 1982, pp.22−23).

2,07

2,33

2,60

2,70

2,70

2,77

3,00

3,27

3,37

0 1 2 3 4

Comfort

Sense of community

Relief

Joy

Trust

Satisfaction

Enthusiasm

Interest

Feelings of challenge

Figure 4: Mean values of the students’ (n=30) ratings of the
positively toned emotions (0 = not at all, 4 = to a great extent).

Interestingly, even if the respondents were not convinced about whether
the online discussions had helped them to learn, several of them mentioned
online collaboration as a major reason for experiencing feelings of joy. In
this respect, this research further supports the argument that social
interaction is a powerful generator of emotions (Averill, 1982). In addition,
collaboration generated feelings of trust (M = 2.70, SD = 0.99). According to
the respondents, the study group could be trusted in terms of completing
the learning tasks.   

Of the negatively toned emotions (Figure 5), stress (M = 2.59, SD = 0.98)
and uncertainty (M = 2.23, SD = 1.17) were reported as having the highest
intensity. The students gave the following reasons for the negatively toned
emotions:

1. strict timetable of the course (stress, worry, irritation),
2. abundance of study material (stress, feelings of inadequacy,

disappointment),
3. ambiguity of the learning tasks (uncertainty, disappointment),
4. group dynamics (uncertainty, worry, irritation, feelings of inadequacy,

frustration, tension), and
5. problems with the learning platform (uncertainty, disappointment,

irritation).



Hakkarainen, Saarelainen and Ruokamo 103

0,60

0,63

1,17

1,40

1,68

1,73

1,77

1,83

1,87

2,23

2,59

0 1 2 3 4

Embarrassment

Dispiritedness

Boredom

Disappointment

Feelings of inadaquacy

Tension

Irritation

Worry

Frustration

Uncertainty

Stress

Figure 5: Mean values of the students’ (n=30) ratings of the
negatively toned emotions (0 = not at all, 4 = to a great extent).

Collaboration proved a powerful generator of negatively-toned emotions
as well (see also Averill, 1982). Several of these, such as frustration (M =
1.87, SD = 1.14) and tension (M = 1.73, SD = 1.09) were associated with
group dynamics: other members’ lack of commitment, lack of trust,
different working styles, and differences in contribution to the learning
task. On the basis of these results it can be stated that successful group
dynamics are essential for students’ emotional involvement.

The roles of the digital videos in the students’ meaningful learning

The DVs played a supportive role in the DV supported, online, case based
teaching approach applied on the course: 60% of the respondents agreed or
moderately agreed that the videos helped them to learn. All of the
respondents estimated that the videos illustrated the cases and 81%
evaluated that they had brought added value to the learning process. In the
open ended questions, the respondents specified the reasons for the added
value. From the viewpoint of a meaningful learning process, it can be
concluded that the DVs supported the contextual aspects of learning by
”illustrating the cases,” as well as by “introducing and clarifying the
topics” (see also Wiecha et al., 2003; Jonassen, 1995, 2000). By “illustrating
the theories and different perspectives,” on the other hand, the DVs also
promoted the abstract (Lehtinen, 1997; Ruokamo et al., 2002) and multiple
perspectives oriented aspects (Soini, 1999; Flynn & Soini, 2000) of learning.
The DVs enhanced the students’ emotional involvement (Soini, 1999; Flynn
& Soini, 2000; see also Bliss & Reynolds, 2004) by “creating an inspiring



104 Australasian Journal of Educational Technology, 2007, 23(1)

effect” and “variety” to the studying process. Worth emphasising is also
that according to the respondents, one of the roles of the DVs was “to
lower the threshold of getting started with studying”.

Conclusions
The research clearly indicates that both designing and producing, as well
as solving the DV supported cases, promoted especially the active (see also
Hung et al., 2005) and contextual aspects of the students’ meaningful
learning as well as the students’ positive emotional involvement in the
learning process. In addition, designing and producing the cases as a face
to face process supports especially the collaborative and conversational
aspects of meaningful learning. Solving the cases in the online version of
the course, on the other hand, was more associated with the abstract,
reflective, and multiple perspectives oriented characteristics of meaningful
learning. Several implications for further development of the Network
Management course can be drawn from the results and we believe that these
also have broader implications for the development of university teaching
across disciplines.

The locally oriented cases with their learning materials and tasks were
associated with intense feelings of interest, challenge and enthusiasm (see
also Soini, 1999). Therefore, in the future realisations of the course we want
to continue with the locally oriented, case based teaching approach (see
also Jonassen et al. 2003). The three separate cases will be preserved, since
completing a case successfully was associated with satisfaction, joy and
relief (see Engeström, 1982; Bandura, 1994). In future realisations of the
course, the reasons for students’ negatively toned emotions need to be
addressed. For the online students, the improper course timetable was one
of the main reasons for negatively toned emotions. However, we are not
convinced that simply stretching the timetable will help. Rather, the
requirements of online studying, especially the importance of establishing
a regular study schedule right from the beginning, need to be discussed at
the beginning of the course. Negatively toned emotions resulting from the
abundance of study material and the ambiguity of the learning tasks
emphasise the need to clarify the learning tasks at the beginning of the
course. However, we don’t want to present the material and the tasks too
neatly packaged for the students. Instead, we want to preserve the
complexity of the real working world, thereby fostering the contextual
aspects of learning.

Future realisations of both versions of the course will also be built upon
collaborative studying. Even if the online students didn’t think that
collaboration was as significant a support for learning as case based
studying itself was, collaboration was experienced as a reason for



Hakkarainen, Saarelainen and Ruokamo 105

positively toned emotions.  Negatively toned emotions, on the other hand,
resulted from the group members’ different contributions to the learning
task. Therefore, in the future realisations of the course, the online study
groups will be required to negotiate right at the beginning of the course
how they will deal with situations in which a group member doesn’t
contribute enough to the learning task. This means further enhancing the
self directed aspects of learning. The challenge for the teacher is to support
the group dynamics, especially by making sure the online study groups get
started with their studying. In addition, the results indicated a need to
increase tutoring in the students’ online discussions (see Anderson et al.,
2001).

Due to the small amount of research data concerning the students as
producers of DVs, the results of this study are only suggestive. Therefore,
our future research will continue to focus on how designing and producing
DVs can support students’ meaningful learning; in other words, what
students learn and how the learning takes place. In addition, the research
has encouraged the design of a Supporting Meaningful Learning through
Producing and Using Digital Videos course in which Media Education
students are responsible for the whole DV production process, thereby
creating a complete product (see also Herrington et al., 2003). The research
on this course focuses on how integrating the production of DVs with the
problem based learning approach supports students’ meaningful learning.

Acknowledgments
The European Social Fund (ESF) has provided financial support for analysing
the research data and reporting the results as part of the LEVIKE – Network-
Based Higher Education: Case Lapland project.

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Päivi Hakkarainen, University of Lapland, Faculty of Education,
Centre for Media Pedagogy, Box 122, FIN-96101 Rovaniemi, Finland.
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Tarja Saarelainen, University of Lapland, Faculty of Social Sciences, Box
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Heli Ruokamo, University of Lapland, Faculty of Education,
Centre for Media Pedagogy, Box 122, FIN-96101 Rovaniemi, Finland.
Email: Heli.Ruokamo@ulapland.fi