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Australasian Journal of
Educational Technology

2004, 20(1), 49-68

Teachers and ICT: Exploring a metacognitive
approach to professional development

Renata Phelps, Anne Graham
School of Education, Southern Cross University

Berenice Kerr
Catholic Education Office, Lismore Diocese

Professional development for teachers in information and communication
technology (ICT) is currently a major priority for school systems in
Australia and internationally. The metacognitive and reflective approach to
professional development described in this paper is a response to the
limitations of directive approaches to ICT learning within a context of rapid
technological change. It proposes a capability based approach which strives
to develop lifelong computer learning strategies. An important
characteristic of the metacognitive approach is that, rather than specific
objectives or outcomes being ‘imposed’ on learners, participants are
encouraged to identify, articulate and pursue personally relevant goals,
including those related to skills, attitudes, confidence, values and
understandings, integration and school leadership. This paper reports on a
research project which investigated the applicability of such an approach to
teacher professional development. The approach was found to have
significant outcomes in terms of computer skill development, and in
influencing teachers’ approaches to their own and their students’ learning.

The context of teacher professional development in ICT
Computer technology plays an integral role in our personal and
professional lives. The ability to utilise this technology has become the
new literacy for the 21st century and is of critical importance in enabling
Australia to compete successfully in the global community. For future
generations to maximise their capability to operate within competitive and
technologically driven economies, it is critical to foster computer abilities
at every level of the schooling process, and teachers are central to this
endeavour. Just as literacy and numeracy have become imperatives in
school education, so too has ‘technacy’ (Seemann, 2000). For instance, in an
initiative paralleling past and current approaches to literacy and numeracy
education, New South Wales (NSW) will, in 2004 or 2005, implement state



50 Australasian Journal of Educational Technology, 2004, 20(1)

wide computer skills assessments for all Year 10 students, with plans for
the later introduction of testing for Year 6 students (NSW Board of Studies,
2001). Such an initiative reflects the emphasis on computer skills not only
at the state level, but nationally and internationally, and highlights the
critical importance of all teachers assuming responsibility for the
integration of computer technology across Key Learning Areas (KLAs). As
Lai (1999, p.12) states, ‘It is teachers' attitudes towards technology, their
beliefs in teaching and learning and their styles of teaching that determine
how students use the Web and what sort of learning experience will be
acquired’.

The recent Inquiry into the Provision of Public Education (Esson, Johnson &
Vinson, 2002) has highlighted significant concerns relating to teacher
professionalism, including a critical need to redress the lack of fiscal
support for teacher professional development. In particular, teacher
professional development in computer technology has become a major
priority at state and national level. The release of the Review of Teacher
Education in NSW (Ramsey, 2000) highlighted the critical importance of
computer education for all pre-service and practising teachers. In this
report ICT was seen as ‘one of the most significant challenges now
confronting teacher education, teachers and schools’ (p.68). Given the
ageing population of teachers, particularly in Australia (Esson, Johnson &
Vinson, 2002; Ramsey, 2000) the majority of practising teachers did not
receive pre-service training in computer use. Yet teachers have
experienced increasing expectations to incorporate computer technology
into their teaching. They are required to have a broad range of skills to use
a wide range of software and adapt these skills to a diverse set of
classroom situations. Additional pressure stems from expectations that
teachers model positive, self efficacious attitudes to their students
(Delcourt & Kinzie, 1993; Russell & Bradley, 1997).

It has been stated that teachers in general are not confident in their use of
computers (Russell & Bradley, 1997) and that there is historical resistance
surrounding their use (Albaugh, 1997). Few teachers have received pre-
service training in computer use and many have high computer anxiety
and low computer self efficacy. Furthermore, for many teachers the gap
between perceived technological competence and learning to use
computers in their teaching is often threatening and overwhelming (Ropp,
1998). Given the isolated and independent nature of their work, if teachers
encounter difficulties there is often very little assistance or support
available to them (Becker, 1994, 2000).

Numerous studies point to limitations of professional development
programs offered to practising teachers (Niederhauser, 2001; Russell &
Bradley, 1997; Williams, 1998) and various alternative models are



Phelps, Graham and Kerr 51

beginning to be proposed and trialed (Bell & Coultas, 1996; Holtzberg,
1997; McKinnon, 1989; Strudler, McKinney & Jones, 1999; Williams, 1998).
As Lundin (2002) points out, despite years of concerted effort in all
Australian states, it is unlikely that more than fifty percent of teachers
have a basic standard of computer skills. ICT professional development is
essential but with computer technology evolving at such a rapid rate,
directive style training becomes inadequate or out of date in a very short
period of time, months not years. Technology is too diverse and evolves
too rapidly for teachers to be reliant on workshops and seminars
(Melczarek, 2000). ‘There are cases where teaching specific skills inspires
some teacher education students to adopt a technology mindset to
approaching curriculum planning. However, for the most part, this
transmission model of technology adoption fails’ (Ferdig, 1998).

Indeed, in the area of educational IT training, the more general criticism of
teacher professional development made by Barth (1986) might be
considered particularly relevant in that ‘most forms of teacher
development activity leave untouched the incompetent, insult the capable
and at best, are ineffectual’. A further indicator of the ineffectiveness of
many training programs for teachers is provided by Loveless (1995, p.xii):
‘It is not possible to consider the use of IT in classrooms without reflecting
upon one's beliefs about learning and teaching. IT capability can be seen as
much more to do with an approach to ways of learning and working than
as the development of a set of skills’.

Esson, Johnson & Vinson (2002) highlight that, for too long, there has been
a focus on ‘training and development’ rather than ‘professional
development’ and their report points to the potential value of reflective
approaches which are part of an everyday process of improvement in the
natural setting. Learning to use computers involves learning to adapt to
change, to be flexible, intuitive and above all persistent, and learners who
know how to be self directed and independent will be more successful
than those dependent on structured routines or guidelines (Ropp, 1997,
1998). Effective professional development requires more than skills
training; it involves changes in attitude, values and beliefs that develop
confidence for ongoing learning. These issues obviously present
challenges to teacher preparation and professional development
programs. They point to a need to move away from skill objectives to
focus more on teachers’ approaches to learning, their beliefs, attitudes and
metacognitive understandings. It entails helping individuals come to
terms with the nature of technological change and their own abilities to
confront this change. Of implicit importance here is a focus on effective
learning strategies which empower learners to continue to learn computer
skills throughout life.



52 Australasian Journal of Educational Technology, 2004, 20(1)

There is a strong case to be made, therefore, for approaches to professional
development where teachers are required to be more self directed in
identifying what they need to learn and in undertaking the actual learning.
Teachers need to develop adaptive computer learning skills. They need to
develop self efficacious approaches to information technology, an ability
to learn from colleagues, support personnel and students (Rea, Hoger &
Rooney, 1999); in essence, they need to engage in self directed and lifelong
computer learning. Research such as that by Zhao et al. (2001) emphasises
the importance of a positive attitude to integration, enthusiasm, lack of
anxiety and approach to learning and teaching as key factors in adoption
of technology by teachers. These are aspects rarely addressed in directive
style professional development programs.

Why a metacognitive and reflective approach?
‘Metacognition’ refers to knowledge concerning one's own cognitive
processes, and the active monitoring and consequent regulation of these
processes in the pursuit of goals or objectives (Flavell, 1976; Flavell, Miller
& Miller, 1993). Paris and Winograd (1990) and Jones and Idol (1990)
discuss two dimensions of metacognition: ‘self appraisal’ and ‘self
management’. Self appraisal refers to reflections about one’s knowledge
state and abilities, including what you know, how you think, and when
and why to apply knowledge and strategies. Cognitive self management
refers to ‘metacognitions in action’ (Paris & Winograd, 1990, p.18), or the
ability of the individual to plan and implement appropriate strategies and
to monitor, adjust and ‘trouble shoot’ their performance.

The benefits of metacognitive teaching approaches lie in their ability to
transfer responsibility for monitoring learning from teachers to learners,
and in promoting positive self perceptions, affect and motivation among
learners (Paris & Winograd, 1990). Metacognition has also been explored
by Zimmerman (1986; 1994) in his discussion of self regulated learners.
Self regulation is the process whereby ‘students activate and sustain
cognitions, behaviours and affects, which are systematically oriented
toward attainment of their goals’ (Schunk & Zimmerman, 1994, p.309).
Ertmer and Newby (1996) extended Zimmerman’s notion of self regulated
learning in their discussion of ‘expert learners’, a concept which adds the
ingredient of reflection. By way of definition, Ertmer and Newby state that
‘expert learners use the knowledge they have gained of themselves as
learners, of task requirements, and of specific strategy use to deliberately
select, control and monitor strategies needed to achieve desired learning
goals’ (Ertmer & Newby, 1996, p.1). In other words, they are aware of the
knowledge and skills they do or do not possess, and use appropriate
strategies to actively implement or acquire them. ‘Expert’ learners are
therefore self directed and goal oriented. In contexts of rapid change,



Phelps, Graham and Kerr 53

expert learners’ metacognitive strategies provide distinct advantages:
‘When asked to deal with novel situations, the specific cognitive skills and
learning strategies we have available become more critical than the limited
content knowledge we may possess’ (Ertmer & Newby, 1996, p.7). As has
been pointed out by Ropp (1997; 1998) in novel situations, an
understanding of ‘how’ to learn by using specific cognitive skills and
strategies distinguishes expert learners from novices who may have an
equal unfamiliarity with the content of the domain. It is these approaches
to learning, and the desire to empower learners to continue to support
their own professional learning in ICT beyond the period of the
intervention, which underpin this research.

Background to the study
During 1999-2002 an action research project investigated the use of a
metacognitive approach to undergraduate pre-service teacher computer
education (Phelps, 2001; Phelps & Ellis, 2002a, 2002b, 2002c; Phelps, Ellis &
Hase, 2001). A metacognitive process was developed and refined and
strategies and prompts were formulated to scaffold students’ engagement
in productive reflection and relevant metacognitive engagement. In
particular, participants are prompted to consider: their past and current
feelings, attitudes, beliefs and motivations regarding computer use; their
computer self efficacy and attributional patterns; their educational or
social concerns regarding ICT; their past, current and potential ICT
learning strategies; and goal setting and goal achievement. This
metacognitive approach to computer education was found to be beneficial
in helping students overcome computer anxiety and in developing
appropriate lifelong learning strategies for computer use.

This paper focuses on subsequent research which aimed to investigate the
relevance and transferability of this approach to the context of professional
development of teachers in ICT. In particular, this research aimed to:

• Explore the relevance of the metacognitive and reflective approach
with practising teachers;

• Trial the implementation of the approach within a professional
development framework, including issues of remote delivery
supplemented with face to face workshops, support materials and
online interaction;

• Identify issues impacting on the successful implementation of the
approach for teacher professional development; and

• Identify areas for refining the model and process.

The Catholic Education Office, Lismore Diocese, expressed an interest in
working with Southern Cross University in trialing this approach to ICT



54 Australasian Journal of Educational Technology, 2004, 20(1)

professional development of their teachers. In particular, they wished to
focus initially on secondary teachers throughout the Diocese. The Lismore
Diocese extends from Tweed Heads in the North of NSW to Laurieton on
the Mid-north Coast of NSW, with 10 secondary schools educating 6835
students and employing 550 teachers. The geography of the Diocese posed
challenges for access to professional development because of the time and
cost involved in travel. The format for the professional development thus
needed to take account of this consideration.

It was not feasible to provide release for teachers and workshops were
held on weekends. However, the negotiated professional development
framework was structured to allow participants the option to complete
two assessment tasks in order to obtain accreditation for one unit at
postgraduate level, thus enabling credit toward a Graduate Certificate or
Master of Education.

Methodology
Promotional information was distributed to all secondary teachers in the
Lismore Diocese. Volunteer participants were sought and, following a
very high level of interest in the program, a sample of 40 teachers was
selected by the collaborating partner organisation to include a balance of
experienced and inexperienced, anxious and confident computer users.
This sample of 40 represents 7% of the teachers within secondary schools
in the Lismore Diocese. The research followed a pre-test, intervention and
post-test approach. The professional development experience extended
over a period of two school terms and involved participants in attending 2
workshops, interacting with self paced print, CD and Website based
resources, and participating in online communication. The metacognitive
process was scaffolded through the first workshop and the print based
‘Thinking’ module, which involves teachers in identifying their initial
feelings, motivations and beliefs, and the appropriateness of various
learning strategies in achieving their own self identified learning goals.
They were also required to reflect on at least one school or classroom
based initiative. It was expected that teachers who chose to complete the
assessment tasks and fully engage with the readings and theory would
spend approximately 150 hours of learning (to be equivalent to that
required in a postgraduate level course). However, it was explicitly
acknowledged that a portion of this learning would occur as a result of
rigorous reflection on their day to day classroom practice.

Data were collected from participants before and during the intervention
using pre- and post-intervention surveys, together with reflective journals
maintained by participants; observations made by researchers during



Phelps, Graham and Kerr 55

workshop interventions; online interactions; unstructured interviews with
participants and documentation of discussions with CEO personnel.
Interviews were also conducted with around one third of participants 6
months following the intervention, to determine the longer term outcomes
of the professional development intervention and the rate of adoption and
integration of technology in their teaching practice.

Of the 38 participants returning the initial survey, 20 (53%) were male and
18 (47%) were female. The average number of years’ teaching experience
was 19, with a minimum of 3 and a maximum of 28. The most common
age bracket of participants was 41-45 with 11 teachers below the age of 40
and 17 above the age of 46. One teacher was in the age bracket 26-30 and
one teacher was 60+. Of the 38 respondents, 8 were from Maths, 6 from
English, 5 from Personal Development, Health and Physical Education
(PDHPE), 5 from Science, 4 from Technology and Applied Science (TAS), 4
from Human society and its Environments (HSIE), 2 from Religious
Education, 2 from Languages other than English (LOTE) and one each
from Agriculture and Visual Arts.

Characteristics of participants
There were two very distinct groups of participants, differing markedly in
terms of their level of computer use, their perceptions of encouragement
and support, their attitudes, feelings, learning confidence and skills in
relation to computers. While the majority used computers for
approximately 1 hour per day each day, 4 teachers used computers less
frequently than monthly, with one teacher ‘never’ having used computers.
Twenty-one percent (21%) ‘never’ used computers with their students and
only 8% did so daily. While the majority of the teachers felt encouraged
and supported in their computer use approximately 29% did not. The
majority expressed a positive attitude toward computer use but again, 14%
did not like working with computers and 35% indicated at least some level
of computer anxiety. The majority liked the challenge of learning new
computer skills but 16% did not. Notably 31% of participants did not feel
that they were effective computer learners. Between 36 and 41% of
participants indicated they would not be confident learning in contexts of
high independence, while 46% indicated some degree of confidence in
such contexts. Levels of perceived usefulness were, however, very high
across the participant group.

Less than half of participants indicated that they employed some form of
reflection in their computer use (notably this question was asked before
the topic on reflective practice was covered with participants). Only 29% of
participants indicated that they reflected regularly about their attitude
toward computers (49% did not) and 24% of participants indicated that



56 Australasian Journal of Educational Technology, 2004, 20(1)

they regularly adjusted their computer learning strategies. Participants
were also asked to indicate their level of confidence in performing various
computer skills. More than 80% of participants were confident with tasks
such as opening up a document or a program, printing a document or
finding a specific Web site, and more than 50% were confident with such
skills such as installing software, setting up a computer, creating a
bookmark or favourite, and performing basic email functions. However,
less than 50% of teachers could confidently perform other skills such as
saving images from the Web, changing the ‘effects’ of a graphic, producing
a school newsletter creatively and professionally, using a spreadsheet or a
Webquest. When asked to describe their overall confidence with computer
skills 45% indicated mid to high confidence and 33% indicated low to very
low confidence. Thus, while some of the participating cohort were highly
experienced and confident with computers, about one third were not.

Findings and outcomes
Fostering self regulated goal setting and achievement
An important characteristic of the metacognitive approach to ICT
professional development is that, rather than specific computer learning
objectives or outcomes being ‘imposed’ on learners, participants are
encouraged to identify, articulate and pursue personally relevant goals.
Focus is placed on assisting participants to identify individual goals,
including those related to skills, attitudes, confidence, values and
understandings; integration or practice and/or school leadership.
Participants were encouraged to state their initial aspirations at the first
workshop and then to continually revisit these goals while engaging
metacognitively with the learning process and content. An analysis of
teachers’ ‘restated goals’, expressed through their journals or through the
discussion list, did include changes in skills based and integration based
goals, but notably, metacognitive goals assumed greater centrality in this
restating. Examples included developing increased confidence; having a
go at solving computer problems before seeking assistance; not being
concerned to make mistakes; able to assist their own students to
encompass self directed learning; to complete the course well; to become
more “capable” and, as one participant stated, ‘to review my "relationship"
with computers and maybe make it a partnership!’

Many participants actively monitored and reassessed their goals
throughout the journaling process, gaining affirmation from their goal
achievement and the realisation that they were able to take on more and
more ambitious goals: “I think I may have achieved many of my goals in
the first few weeks!” (Teacher 21, discussion list, 8 August, 2002). Similar
statements were expressed in the following: “It is interesting – the further I



Phelps, Graham and Kerr 57

go in the course the more my goals are changing. A few weeks ago I was
determined to concentrate on using spreadsheets but as I gain more
confidence I am looking further afield into becoming more proficient at
email, searching the net and general computer use”. For some teachers this
active role in goal setting came ‘naturally’ and was a positive aspect of the
course, allowing them to focus on areas most relevant to them, and
implement their learning through their day to day classroom activities, as
expressed in the following:

When I am in charge of my own learning my goals continually change. This
leads me to reflect on the philosophy of Just in Time learning… Self-driven
learning leads me to continually move my goal posts in order for my
learning to continue, either forward or sideways. As I move forward with
my use of computers I find that I am continually wanting to do more and
new things with them – each possibility opens up another, and I seek the
learning which enables me to attain my new goal… I continue to explore,
accomplish new skills, transfer learning, take short cuts, and do what I need
in order to reach my goals.

For others the active involvement in goal setting was more difficult: “It is
very difficult to set goals for yourself when you do not understand much
of what you want to learn. How do I know my goals when I do not know
what would be of most use to me?” While the self paced learning
resources scaffolded teachers through a range of skill developing
activities, and exposed them to a range of implementation ideas, the
degree to which various teachers embraced these ideas and challenges did
vary considerably.

Learning outcomes were diverse, reflecting the variant backgrounds of
individual participants, and included Web based research lessons with
students, PowerPoint presentations for parents, staff or students, lessons
using specific applications such as spreadsheets or databases, enhanced
use of technology in producing newsletters, activity sheets and templates
or exam papers and use of Web based simulation resources instead of text
books. For some teachers, using spell checking, copy and pasting or
sending emails for the first time were big achievements in themselves and
all were equally acknowledged and validated. The metacognitive
approach thus enabled a group of teachers with highly diverse computer
knowledge, skills and experience to undertake productive professional
development and meet individual learning needs and goals.

Diversity in outcomes
The production of a Web based teaching and learning resource
consolidated the skills and pedagogical understandings gained through
the program. It led participants to confront and overcome initial



58 Australasian Journal of Educational Technology, 2004, 20(1)

hesitancies and build computer confidence and a wide range of skills. This
task resulted in tangible pedagogical outcomes and resources with
immediate practical application in the classroom. Many teachers came to
realise that taking on new computer learning challenges was not only
possible but enjoyable.

The metacognitive approach was also found to have broader outcomes
and implications than simply an approach to ICT professional
development. ICT became a medium to engage teachers in confronting
broader issues about their own, their students’ and their fellow teachers’
learning. The metacognitive approach actively fostered the formation of
support structures and networks which could support teachers’ learning
beyond their involvement in the professional development initiative. As
such, it would seem to hold potential as a vehicle to support change
processes within the school environment. Overall, participants indicated
that the professional development initiative met (or exceeded) their
expectations. The selection process was generally seen as fair, it was
supportive to have other participants at their school, and the workshop
timing and location was generally seen as appropriate. Issues in the
implementation of the metacognitive approach included personal illness,
the pressured pace of time for teachers, and the willingness of some
teachers to engage with a ‘different’ type of learning experience. Around
half indicated that the workload was appropriate while half deemed it to
be excessive.

Teachers’ reactions to the metacognitive process
There were both strongly positive and strongly negative reactions to the
metacognitive approach, and in particular the need to engage with
metacognitive ‘theory’. The majority of teachers were positive or highly
positive, while a small number of teachers (three in particular) provided
less favourable feedback. While this divergence in reaction had been
evident in previous research with pre-service teachers (Phelps, 2002) it was
far more pronounced with this group of practising teachers.

Positive reactions are perhaps best encapsulated in comments from those
for whom the approach made a notable and significant impact. One
teacher, for instance, continued to reflect on the notions of competency
and capability (Phelps, 2001) as discussed at the first workshop and noted:

I have made a conscious effort to become a more capable user. When
presented with a problem in the past I would invariably make a mental note
and move onto something else, hoping that I could ask someone’s help at a
later date. The result – the problem was often not addressed.



Phelps, Graham and Kerr 59

This teacher went on to relate a successful recent instance of problem
solving on his home computer: ‘This certainly would not have been an
outcome in the past’. Similar views were conveyed by another teacher:

I found Newman’s article enlightening… Because of lack of time some
people do the task for you instead of explaining what to do and letting you
do it. My independent nature holds me back from seeking help, as well as
the desire not to be a pest to others. I’m sure there is also the
‘embarrassment’ factor just as there is for the students we teach (who by the
way I am always encouraging not to be).

There were, however, some participants who did not perceive as much
value in the approach. For some teachers this manifested simply in
superficial or minimalistic engagement with the process. A number of
teachers expected ‘quick fixes’ and ‘how tos’. Notably, the metacognitive
approach did explicitly acknowledge that all computer users need such
ready support and ‘answers’ at various times in their learning, and
learners were strongly encouraged to seek help and assistance when
needed. This encouragement included the identification of mentors, and
ready access to the facilitator of the process (the first author) via phone or
email at any stage, strategies which most learners embraced. The
metacognitive approach openly discussed theory concerning help seeking,
and assisted teachers to develop strategies, networks and attitudes to
enable them to seek out such help when needed.

One teacher in particular developed quite an antagonistic attitude to the
learning approach, commenting in the discussion list about the “lack of
practical application”. A meeting with this teacher highlighted the
dissonance between his expectations of the course and the metacognitive
approach, with this teacher citing specific examples of wanting to be
shown how to do particular things (for example, inserting a symbol in a
Word document). Notably, it was easy to provide these ‘directions’ to this
teacher via the discussion list the following day, however it was unclear
whether this teacher’s concerns were overcome through this
demonstration of possible and appropriate ‘help seeking’ strategies. While
such reactions do speak of the precarious and unpredictable success of this
approach, most teachers responded either neutrally or highly positively to
the approach. It was interesting to read another participant’s journal
reflections regarding the above teachers’ discussion list contribution:

One of the students posted a notice on the discussion board about the lack
of practical application in our course. I think his problem isn’t lack of
practical application but rather he hasn’t read (understood) the
philosophical underpinnings of the course. There’s lots of practical stuff on
the disk but the process is more important than the details.



60 Australasian Journal of Educational Technology, 2004, 20(1)

Some participants experienced initial concerns and difficulties in ‘getting
started’ and needed further guidance and reassurance as provided via the
discussion list and informal conversations. A number of teachers were ‘up
front’ in acknowledging their discomfort in keeping a journaling, although
they also perceived benefits.

Broader outcomes of the metacognitive approach
A significant and somewhat incidental outcome of the metacognitive
approach was participants’ capacity and willingness to apply their
metacognitive learning and reflection not only to their own professional
development but to their interactions with their students and fellow
teachers in their school. One teacher, for instance, spoke of encouraging
students to problem solve and explore before asking for help; another
reflected on the relevance of appropriate attribution and adaptive help
seeking to students with special needs, and another on his renewed
determination to resist ‘spoon feeding’ students. Yet another identified a
need to promote more discovery learning through their teaching.

A number of teachers were also able to observe and identify computer
anxiety and inappropriate learning attitudes, approaches and strategies
amongst their teaching colleagues, and some took active steps to support
their peers to develop computer confidence. As noted by one participant:

I believe I now understand it is not only the end result but the process of
getting there that enables me to feel confident. This has helped me
understand better where my “less computer literate” colleagues are.

Another teacher provided some insightful reflections regarding their own
and their colleague’s willingness to learn with students, reflecting that it
was refreshing when teachers could own up to their own inadequacies and
show students a human side. They noted how students’ self esteem could
be raised by knowing that it is alright not to be extremely efficient with
computers, or that they could help others. Similar ideas were expressed by
another teacher:

As teachers we must encourage our students by modelling for them the
behaviour of “appropriate attribution”. If they see us encounter problems
and watch as we take steps to solve them they will be encouraged to
explore a little more themselves.

The metacognitive approach also actively fostered the formation of
structures and networks which could support teachers’ learning beyond
their involvement in the professional development initiative. As
previously noted, teachers were encouraged to locate mentors, either
within their schools or from friends and families. Part of the approach was



Phelps, Graham and Kerr 61

to help participants to appropriately balance their own help seeking and
problem solving strategies. The importance of fostering support within
this framework is encapsulated in the following quote:

The exercise made me realise I am very keen to ask questions… but I know
now that I need to have more restraint and ask more self questions first and
even rethink my questions. It is part of that person in me that is always in a
rush and would like that little slave at my beck and call.

Collaborative learning formed a very positive influence for a number of
teachers, building networks within the school which would support
ongoing learning. Not only did participants receive support and
motivation from mentors but they also, in many instances, provided it to
others, as described in the following:

I acted as a little bit of a guide to my co-learners from school. I didn’t
actually teach them anything they didn’t already know, but I did give some
advise and help with a few small things that I hope assisted their own
learning processes. That was a very powerful experience too as it seemed to
fortify the knowledge I had gained, and gave me the confidence to continue
to try new things.

The process of ‘teaching others’ was (and will continue to be) a valuable
reinforcement for these participants’ confidence and skills. The broader
outcomes of this support structuring and the attention directed at
‘appropriate’ help seeking would be interesting to follow up with
participants in future interviews.

Issues in implementing the metacognitive approach
The most significant factor influencing teachers’ successful completion of
the professional development approach were personal issues such as
illness of participants or participant’s families. These issues were
particularly pronounced given that the initiative stretched over a period of
some 17 weeks and unforeseen hurdles inevitably arose in teachers’
personal and professional lives. The pressured pace of time at school was
identified by many as impacting on their help seeking and exploratory
learning approaches.

Teachers involved in the initiative inevitably do encounter technical
difficulties. Part of the metacognitive approach is to explicitly
acknowledge technical problems as an inevitable part of computer use and
(hence) as unavoidable in the experience of engaging with the professional
development experience. At times, however such complications can seem
to be overwhelming for the computer learner, as was expressed by Teacher
40:



62 Australasian Journal of Educational Technology, 2004, 20(1)

I seem to be lost in a mire of hardware problems and barely able to address
the issues or areas of interest in the course that I would like to become
involved with and learn about. I’ve seriously considered just quitting
because I am physically unable to use the equipment – or in fact it just
doesn’t work.

However, as demonstrated in Teacher 40’s continuation in these
reflections, the metacognitive approach can assist in confronting and
working though such issues: ‘this sounds to me like the excuses that non-
users have or those who are avoiding learning because it is all too new or
too difficult or too threatening etc. I don’t want to quit…’. And she didn’t!

A number of issues also emerged within schools in terms of teachers’
abilities to implement planned classroom implementation projects.
Examples included access to digital projectors, suitability of rooms for
projection, and timetabling issues with computer labs. However teachers
were able to acknowledge that these were all the ‘normal’ hurdles that are
an integral part of ICT integration in classroom practice. Reflecting on
these issues supported them to work through the problems and seek
solutions, and also, in some cases, prompted teachers to instigate changes
in processes within their schools.

Another issue with the approach, and one which goes hand in hand with
the inherent flexibility, is that some teachers were not personally
challenging or confronting in their goal setting and achievement. Teacher
27, for instance, demonstrated a broad and general engagement with the
Unit content, covering all topics but at a general and non-personally
challenging level. This participant also didn’t provide a great deal of
evidence of taking on challenging learning experiences. Teacher 38, in
contrast, was incredibly comprehensive in critically engaging with the
resources, theory and issues explored in the course. This participant
didn’t, however, demonstrate broad skill development or classroom
implementation, although developing some specific skills such as
bookmarking. Notably, this individual was in an administrative position
and therefore was less able to implement learning in the classroom.

A brief case study of Teacher 10 might also illustrate the point. Teacher 10
undertook a thorough engagement with the readings and the issues
relating to ICT in learning and teaching but did not focus on his own skill
development. Despite various offers of support and assistance these were
not taken up, perhaps indicating issues with help seeking and a fear of
appearing incapable or ‘unintelligent’. For this teacher, unfortunately, his
initial goal to ‘get out of the mindset’ that he could avoid computers was
not met; the avoidance seemed to continue, despite his acknowledged
‘unwillingness to try and a lack of persistence in getting an outcome’.



Phelps, Graham and Kerr 63

While there was little evidence of personal skill development for Teacher
10, this participant did work through some attitudinal and acceptance
concerns:

What I need, I believe, is to see a use of computers with different eyes. I
need a paradigm shift so that when facing a task involving the use of my
computer, that I see it as a game, as a challenge…

He did conduct a lesson using digital projection of graphics downloaded
from the Web, although a great deal of assistance seemed to have been
given. Following this experience Teacher 10 reflected that ‘…the feeling
that this is a far simpler process than I had anticipated was very
encouraging’. Engagement with issues surrounding ICT integration was,
however, an important stage for Teacher 10, even if he had not been
‘ready’ to embrace skill development as part of the course:

I am now seeing technology as one of the strategies that is essential to
achieve certain outcomes. Six months ago I would have said that the
parameters were far more limited in the range of strategies that I would
consider adopting within the classroom.

A small number of teachers’ held dissonant initial expectations of the
initiative. In one case this led to continued antagonism toward the
approach (as already documented). In another teachers’ case the statement
was simply made that ‘when I signed up this workload was not made
clear to me’ (Teacher 39). It would seem that a critical issue in the success
of the approach is accurate and informative promotion of the initiative
such that all participants are aware of the expectations and processes.

The impact six months onwards
Interviews were conducted with those teachers indicating their willingness
to be contacted six months after the professional development initiative to
determine longer term outcomes. These interviews clearly indicated that
teachers’ confidence with using computers had increased significantly as a
result of the course. Comments such as the following were not uncommon:

I was very dependent now I am more independent. I thought I was pretty
bad with computers. Now I have so much more confidence. So my outlook
has changed and this has changed my approach and strategies I use. Before
I had a list with step by step. Now I feel a lot better with trying to figure it
out myself.... My approach is “get in and have a go” because I am so much
more confident.

Most had continued learning new computer skills and programs and
implementing these skills in new ways in their classrooms, attesting to the
potential lifelong learning outcomes from the approach. In learning new



64 Australasian Journal of Educational Technology, 2004, 20(1)

skills, teachers were employing the types of exploratory learning
approaches promoted in the course.

I had the idea instilled into me that I am not going to break the computer. I
drag the mouse over the tool bar till I get what it does. I drag down the
menu, open things up and have a look around. If I change the setting I just
remember what I did and go back. Before I had the misconception or fear
that I could break things.

Virtually all of the interviewed participants had found themselves
working with other staff within their school, assisting them in their own
computer learning and use. Many also found themselves continuing to
draw on support networks established through the program. Most
interviewees were highly conscious of the types of strategies they were
using to work with these other teachers, and were consciously building
their own and others’ confidence and utilising appropriate teaching and
learning strategies.

Of particular significance, however, was the degree to which the course
had influenced participants’ teaching approaches within their own
classrooms. Many had adopted aspects of the metacognitive approach
with their own students, as indicated in the following comment:

At first I was not so sure about metacognition… Learning how to learn. I
did not have much time for it. I did not know about it and was shying away
from it. But now I say to the kids “we have to learn about how to learn”. I
have taken this approach on board with the kids. We can’t just do things,
we need to think about different ways and approaches to problems. This
has been a big improvement for me.

An important finding was the extent to which initially sceptical teachers
had come to appreciate and benefit from the process of reflection and had
begun to utilise reflective learning approaches with their own students:

Reflection was something that was new. I had not used it before as a
strategy. I think reflection is a good strategy. I use it a lot with my own
learning and in the class. I have gone back to my journal as a resource, such
as techniques that I learnt or what I was doing wrong. Reflection is a
valuable tool, one we don’t use enough.

Conclusions
These findings indicate that the metacognitive approach has broader
outcomes and implications than as simply an approach to ICT professional
development. Rather, ICT is used as a medium to engage teachers in
confronting broader issues about their own, their students’ and their
fellow teachers’ learning. The metacognitive approach also actively
fostered the formation of support structures and networks which could



Phelps, Graham and Kerr 65

support teachers’ learning beyond their involvement in the professional
development initiative. As such, it becomes a powerful vehicle to support
change processes within the school environment.

Down & Hogan (2000) state that promoting more critical and reflective
thinking in teacher education programs is fraught with contradictions,
tensions and dilemmas. This is also consistent with comments made by
Saylor (cited in Palmer, Burns & Bulman, 1994, p.5-6), who noted that
reflection is hard because ‘one must analyse what's transpired and to some
degree, make a value judgement about it... It seems to be much safer and
secure not to reflect, because I don't have to change that which I don’t see
as wrong’. While involvement in the metacognitive approach was
challenging for some teachers it was also liberating for others, and many
participants came to realise the benefits of reflection for their own and
their students’ learning. The highly diverse ICT background knowledge,
skills and experience of the teachers who participated in this professional
development initiative attests to the flexibility of the approach in
productively meeting a diversity of teachers’ needs, and enabling
everyone to learn at a level and point of readiness appropriate for them.

The formal framework of professional development, requiring reading
and assessment but allowing postgraduate accreditation, is arguably of
interest to a limited group of teachers. Future research is needed to
investigate whether metacognitive theory, and the application of this
theory to teachers’ ICT learning, can inform other professional
development approaches such as peer networking, mentoring and small
group learning. The metacognitive and reflective learning approach would
also appear to have outcomes beyond the ICT focus of this research and
this research indicates that it may be a valuable approach to professional
development in contexts other than ICT. Those involved in ICT
professional development in contexts other then teacher education may
also find benefit in investigating the applicability of the model within their
own professional contexts.

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Renata Phelps, Anne Graham
School of Education, Southern Cross University
http://www.scu.edu.au/schools/edu/

Berenice Kerr
Catholic Education Office, Lismore Diocese
http://www.lism.catholic.edu.au/