campbell.pdf


Australasian Journal of
Educational Technology

2010, 26(Special issue, 4), 447-463

Using interactive whiteboards in pre-service teacher
education: Examples from two Australian universities

Chris Campbell
The University of Notre Dame Australia

Peter Kent
ACT Department of Education

Research indicates that when interactive whiteboards are used well they can increase
student engagement and learning (Glover, Miller, Averis & Door, 2007; Schuck &
Kearney, 2007, 2008). This means it is important to educate future teachers in how to
use interactive whiteboards and how to incorporate them successfully into their
teaching. Current research indicates that a teacher’s pedagogy or ‘how they teach’ has
a major influence on the quality of student learning outcomes. Thus ‘how teachers use
ICT’ has a great effect on student outcomes. A range of pedagogical models concerned
with the concept of authentic pedagogies are commonly used within Australian
classrooms. Training designed for pre-service teachers dealing with the pedagogical
application of interactive whiteboards is designed to guide and assess the
implementation according to these pre-existing and widespread pedagogical models.
This paper examines examples of how IWBs can be used in teacher education as well
as how to integrate their use across courses that pre-service teachers undertake.

Introduction

Many primary and secondary schools in Australia have at least one interactive
whiteboard installed and most schools have implementation programs where IWBs
are integrated in some way into everyday classroom teacher practice. IWBs have the
ability to transform the way teachers use technology in their classrooms (BECTA, 2003;
Glover & Miller, 2001; Glover, et al., 2007). They provide ways to incorporate
eTeaching into lessons by allowing digital convergence in the classroom, whereby this
technology is no longer an add-on feature but an integral part of classroom teaching
(Kent, 2004a, 2004b). As teacher educators, it is perceived as important to introduce
developing teachers to this still relatively new technology, to ensure they not only
become more conversant with IWB technology but also are alert to how the IWB can
influence their pedagogical practices.

In order for teachers to be competent and effective users of IWBs within their teaching
and learning programs there are two basic skill sets that they require. They need to
have a basic level of IWB technical skills and they need to know how to operate the
technology as well as be confident in this operation. Teachers also need to have
competent ICT pedagogical skills and pre-service teachers need to be taught how an
IWB works, as well as understand how to pedagogically apply these technologies in
such a way as to enhance student learning. It is important to avoid the situation where



448 Australasian Journal of Educational Technology, 2010, 26(Special issue, 4)

pre-service teachers cannot articulate clearly the difference between good and poor
teaching with an IWB, as the effect of poor quality teaching undermines student
learning, and this effect is cumulative (Darling-Hammond, 2000). One of the
difficulties of having such discussions amongst pre-service teachers is that there is no
one ‘perfect’ way to teach. Often when sharing innovative lessons, pre-service teachers
make no mention (or are not fully aware) of subtle changes in the way they interact
with the class – changes that are crucial to the success of the lesson. This means that
others may not be successful when teaching a similar lesson in the same way. This
paper demonstrates how two universities are successfully teaching pre-service
teachers IWB skills that will prove beneficial in their teaching practice.

This research reports on the implementation and use of interactive whiteboards with
pre-service teacher education students at two Australian universities, one in the state
of Victoria and the other in Canberra. The examples are quite distinct and allow the
opportunity to see the various ways in which educational institutions implement a
teaching tool such as the interactive whiteboard. In 2010, the Minister for Education,
Julia Gillard, announced that the Federal Government had allocated forty million
dollars for teachers’ professional development in ICT, as part of the Australian
Government’s A$2.2 billion Digital Education Revolution (Gillard, 2010). This will
potentially have further impact on how IWBs are taught to pre-service teachers as part
of this new funding. Thus, this research is timely as it may allow other universities to
build on the types of IWB use already occurring.

Background

Many universities have often been slow on the uptake of technology and in some ways
are grappling with the transformations required “to cope with the challenges and
opportunities posed by information and communication technologies” (Breen,
Lindsay, Jenkins & Smith, 2001, p. 95). This observation is also applicable to the use of
IWBs (sometimes called digital whiteboards, electronic whiteboards or
SMARTboards). IWBs are large, touch-sensitive boards connected to a digital projector
and a computer. Software that is used in conjunction with the IWB provides a variety
of functions that have been described by Kennewell (2006, p. 2) as including “drag and
drop (objects on the board can be moved around); hide and reveal; highlighting;
animation; indefinite storage and quick retrieval of material and immediate feedback
(when a particular object is touched, a visual or aural response is generated)”. IWBs
“replicate the functions of older presentation technologies such as flipcharts, overhead
and slide projectors and video players” (Schuck & Kearney, 2007, p. 8) and offer a
more varied use of teaching materials as they allow creative and dynamic integration
of web based materials, rich media, and manipulation of text and images. Information
can be saved and printed directly from the board (Walker, 2002) and presenters have
the opportunity to spontaneously and seamlessly access and annotate, if needed, a
wide range of web based resources (Kennewell, 2001).

IWBs provide versatility of learning for all ages and across all areas of the curriculum
by offering useful ways for a class as a whole to interact with new electronic content
(Smith, 2000). According to research by Levy (2002), IWB use increases the enjoyment
and motivation of all classroom participants. Kennewell (2001) also conducted research
which showed that students enjoyed presenting and discussing their work via the IWB
and that this sharing is a vital component in increasing motivation and learning gains.
The British Educational Communications and Technology Agency (BECTA), found



Campbell and Kent 449

heightened student motivation to be a key benefit of using IWBs (Schuck & Kearney,
2007). While the focus on motivational outcomes is well researched, it should be noted,
however, that a recent study by Swan, Schenker and Kratcoski (2008) suggests only
small achievement increases in classes where the teacher used an IWB. This is one of
the few studies that clearly demonstrate improved student achievement from using
IWBs in the classroom. Despite being relatively easy to use, it is also important to note
that there are issues associated with teachers using IWBs, such as time to establish
individual presentations and required training and support, as well as having
adequate confidence in the technology.

Having an IWB in the classroom, however, does not necessarily open a lesson to
higher levels of student interaction. IWBs require an investment of time, and some
degree of training and independent exploration by teachers is generally necessary
before IWBs are well utilised in the classroom. In addition to feeling confident in using
IWBs, users need to understand the technical issues, they need to be sure there is
appropriate technical support, and they need to have confidence in their network
connections. As IWBs are a relatively new teaching resource, there is also a need for
teachers to build up a range of multimedia teaching materials and for teachers to
understand that initially this process can be quite time consuming. Teachers may also
become alert to the new level of presentation expectations engendered in students and
the associated outcome of having to find ways to maintain this dynamic interaction.

Methodology

This research is the result of discussions between researchers who are involved in
implementing IWB programs at two universities in Australia. Data was collected
concurrently from both implementation programs and was then evaluated. Within a
qualitative methodology framework, a case study approach was used for this research.
A case study is the detailed examination of a single individual or single discrete social
unit (Ary, Jacobs & Razavieh, 1990). Yin defines a case study as an investigation of “a
contemporary phenomenon within its real life context” (Yin, 2003, p. 13). Having two
cases allowed for a depth of understanding, as the use of multiple cases may enable
more compelling evidence to be gathered and more powerful conclusions to be
generated (Yin, 2003), with single case designs possibly being vulnerable “because you
will have put all your eggs in one basket” (Yin, 2003, p. 53). The data collected by way
of the two cases at two different universities has the advantage of being strong in
reality, which allows attention to be focused on the contextually unique features of this
study (Cohen, Manion & Morrison, 2000).

Participants

Participants varied at each of the universities. At La Trobe University, Bendigo,
Victoria, there were 212 first year education students who were introduced to IWBs in
the first semester of a general ICT education course. The students were then asked to
consolidate their skills in semester two in a mathematics education course.

In the Canberra case, there were 60 pre-service education students, participants in the
final day of the Master Teacher training course. This was a voluntary day comprising a
part of their pre-service teacher education training, organised through the University
of Canberra’s Library.



450 Australasian Journal of Educational Technology, 2010, 26(Special issue, 4)

Data gathering techniques

The data collection period was in 2008 at both universities, although data was collected
in different ways. In Semester One at La Trobe University data was collected through
the use of a WebCT discussion space. This space was used for informal chats on various
uses of the boards and was particularly important in assisting pre-service teachers to
reflect on their teaching experiences, which in turn assisted pre-service teachers with a
further assessment component that required reflective analysis on ICT in schools. They
were expected to ground their reflection with reference to the text book for the unit
‘Meaningful Learning with Technology’ (Jonassen, Howland, Marra & Crismond,
2008) and to comment on each other’s experiences. This reflection was worth six
percent of the unit’s total assessment.

From the 100 pre-service teachers who gave ethics approval for any first year project
data to be reported, there were a total of 94 comments pertaining to IWBs with some
pre-service teachers from this group making more than one comment. Using the
WebCT discussion board, pre-service teachers added comments that described the
number of boards in schools with these comments varying greatly. The discussion data
was then coded and analysed for emerging themes.

Semester Two at La Trobe University provided the opportunity for very different data
collection. The same first year students were studying a unit in mathematics education
and they worked in groups of three to present a tutorial to their class based on a
mathematical concept. Data collected during this phase of the research included
student assignments and reflection on and grading of the student presentations. The
lecturer from this unit then analysed this data.

The University of Canberra students were invited to participate in an evaluation of the
one day course by completing a questionnaire. The questionnaire, which was
administered to the students at the end of the day, asked them several types of
questions. These included asking the students what they thought of the one day course
with regards to learning how to use IWBs and if they would recommend the course to
others. Other questions pertained to improving the one day course in the future as
they revolved around any improvements the students thought could be made to it.

One of the limitations of this study was the various ways in which data were collected.
This makes analysis in a consistent way across both examples limited. In the future a
more systematic approach would be advisable. Another limitation is that the data were
collected by different researchers, and once again this makes analysis limited due to
the various data collection methods.

Data analysis techniques

The researchers recognised the importance of analysing the data in a systematic and
continuous manner (Burns, 1994) across both of the university cases. The data was
examined and the themes explored through the use of categories relating to the
research questions. Once these categories were assigned, the analysis relied heavily on
description rather than inference. Analysis of the student responses have been
presented in the first case.



Campbell and Kent 451

Case One: La Trobe University

With the increase in access to IWBs in schools comes the expectation that future
teachers will be well versed in providing an efficient, seamless integration of IWB
technology into lessons across the curriculum. Working with first year pre-service
teachers to develop knowledge of and comfort with teaching using IWBs may be
expected to assist them with this integration process, as IWBs are one important tool
available for integrating ICTs in the classroom.

The Faculty of Education, La Trobe University Bendigo, purchased its first interactive
whiteboard in June 2005. The staff were introduced to IWBs at this time with a seminar
presented by Peter Kent. This seminar focused on the pedagogy of using an IWB in the
classroom and provided practical instruction in its use. The Faculty of Education’s
initial IWB was placed in the Mac computer laboratory (‘Maclab’). This location
allowed access to the board by all first year pre-service teachers undertaking the
subject ‘ICT for Education’ and fourth year pre-service teachers undertaking the
elective subject ‘Interactive Technologies’. The board was a Promethean Activboard
with ActivStudio software (Promethean, n.d.), selected because the software was very
similar on both the Mac and Windows platforms and because the library within the
program was considered well-developed.

In 2008, the Faculty of Education introduced the “Connecting with Education: The
First Year Experience” project. This project was conceptualised initially as an outcome
from the Bachelor of Education review conducted during 2007. One aspect of the
project was to ‘Embrace online teaching and learning mechanisms as an integral part
of the teaching and learning program’ (Masters, 2007, p. 2). Grant funding enabled the
purchase of two more IWBs. The Faculty funded another two boards, bringing the
total number of boards in the Faculty to five. Three of the new boards were placed in
regular teaching rooms, with the remaining board placed in the Windows lab. All
boards were Activboards. The IWBs were strategically placed in rooms deemed to offer
high usage. They were positioned at a height deemed adequate for all pre-service
teachers in the room to see when it was in use yet still low enough to be useable by the
presenter(s). The three IWBs placed in regular teaching classrooms had software that
enabled use via either Window or Mac laptop computers and laptops were made
available to pre-service teachers for class presentations.

In Semester One, all Bachelor of Education pre-service teachers complete a unit of
study that focuses on ICT. This unit aims to provide pre-service teachers with up to
date computing skills and teaches them how to integrate ICT in primary school
classrooms. The subject ensures the pre-service teachers become familiar with various
kinds of software, for example, PowerPoint, Photostory and Inspiration. In 2008, with the
new boards placed in three classrooms and both computer labs (Mac and PC), pre-
service teachers found they could use IWBs for presentations and class activities across
a range of subjects. In the ICT unit the lecturer placed considerable emphasis on using
and teaching with IWBs.

Within the ICT unit there were two core lectures on IWBs. The first lecture focused on
the theory and pedagogy behind using IWBs in the classroom. It demonstrated using
quality teaching with technology, how to enhance learning in the classroom as well as
how to use the IWB when teaching with higher order thinking skills. Practical
classroom examples were provided with ActivStudio. In lecture two, pre-service



452 Australasian Journal of Educational Technology, 2010, 26(Special issue, 4)

teachers were informed of the location of the boards within the university and given
instruction on how to access them, via the university owned laptops that had
ActivStudio and SMART Board Tools (SMART Technologies, n.d.) software installed.
Pre-service teachers were then introduced to the Promethean website and instructed in
how to download existing flipcharts from the Promethean Community website. These
flipcharts were further discussed by the class. In addition to the two lectures, the pre-
service teachers had one practical workshop in the computer laboratory where they
were introduced to ActivStudio and SMART Board Tools. During the class the pre-
service teachers created two different flipcharts. One was an ordering activity and the
other a sorting activity as described by Kent (2008). During this class pre-service
teachers were also given the handout Creating Simple and Effective IWB files (Kent, 2005).

To further support the pre-service teachers, instructions on how to use the Smart Board
Tools and ActivStudio were placed in both the Maclab and the Winlab. Information was
placed within the University’s learning management system (WebCT 6), and for those
seeking more information, pre-service teachers were given web links to various
websites. A WebCT discussion on interactive whiteboards was also created. In this
space pre-service teachers were able to comment on how they foresaw IWBs being
used in different settings. The pre-service teachers also had, as an assessment option,
an opportunity to complete an assignment using the IWB software.

Outcomes and evaluation of Semester One

Although no pre-service teacher took up the IWB assignment assessment option, all
pre-service teachers elected to create a PowerPoint for the assignment and were keen on
using the WebCT discussion space. As described above there were 94 comments with
some pre-service teachers making more than one comment.

There emerged a general picture of either a small number of IWBs being located within
each school and/or indications that these boards were never or rarely used. Using the
WebCT discussion board, pre-service teachers added comments that described the
number of boards in schools with these comments varying widely, for example:

Most classrooms had an IWB.
There are only two IWBs in the whole school.
To my knowledge there are no IWBs installed in classrooms.
My school didn’t have any IWBs at all.

Other comments discussed the amount of time they were used. These included:

The students used the interactive whiteboard once while I was there.
The teachers used them different[ly] according to different year levels.
My teacher heavily used the Internet through her interactive whiteboard.

Discussion also centred on the placement of the boards

The IWB that we used was in the next room so we moved into that room to complete a
maths topic.

The only IWB was … in the year 5 classroom and other classes borrow this room for
specific lessons.

There are IWBs installed in every classroom except for the grade 5/6 classrooms.

The students also discussed the curriculum areas in which IWB technology was used
with one pre-service teacher stating “for Prep maths the teacher set up a 1 to 20



Campbell and Kent 453

number line and then pulled some numbers out so the students could take in turn and
go up and put the numbers back in order.” Other comments included:

They looked at fractions.
I … saw rainforest maths used on the interactive whiteboard.
The class I saw … did … literacy groups.
During integrated studies the teacher used the IWB …
The IWB was … used during a music lesson.

These comments by the pre-service teachers also show that students were observing
how IWBs were used in schools:

It amazed me to see that all students knew how to use the IWB and if the teacher was
having trouble they all knew what to do most of the time.

The teachers use the IWB to its full extent and put up all the content they want to teach
to the students … The teachers would use the interactive whiteboard to take
attendance. … Students … fill in the missing words and brainstorm.

I have been rather disappointed to see … [that in] classrooms that do in fact have IWBs
installed [they] … do not seem to make much use for them, except for actually
writing on.

These comments display, to some degree, how strongly schools have supported the
implementation of IWBs. Of course there are many factors that influence this
implementation process such as funding, where the IWBs are physically located, and
who in the school has access to them. Other issues relate to a consideration of
pedagogical issues such as the underpinning of a teacher’s beliefs, and how these
beliefs impact on how a teacher values an IWB as a tool for providing enhanced
learning opportunities.

Comments also included suggesting a lack of ICT being taught in some schools and
either a small number of IWBs being located within each school and/or indications
that these boards were never or rarely used. For example, one pre-service teacher
described how:

The students used the interactive whiteboard once while I was there. There are only 2
IWB in the whole school. The IWB that we used was in the next room so we moved
into that room to complete a maths topic. They looked at fractions and each student
got to go up to the IWB and choose which answer was the right one. The students
really liked the IWB and when I asked them if they wanted one in their classroom they
said yes.

There are many reasons for a lack of use and as this quote suggests one of these
reasons was the practicalities associated with moving to the classroom next door –
where the IWB was located. Pre-service teachers also made specific mention of the
shortage of IWBs in the school they visited. For example:

To my knowledge there are no interactive whiteboards installed in classrooms which
is a real disappointment for a few reasons. I think the IWBs are a fantastic technology
tool that all students, across Victoria especially, should have access to. I would have
also liked to see the way in which teachers use IWBs. It would be great to see these
boards installed in the school as soon as possible.

These discussions also displayed positive feedback between pre-service teachers
through the learning management system discussions. Pre-service teachers
commented on both the ways the boards were used and on associated learning
activities. For example:



454 Australasian Journal of Educational Technology, 2010, 26(Special issue, 4)

It was surprising to see other comments and read how different schools are when it
comes to integrating technology into lessons … most classrooms had an IWB and the
teachers used them differently according to different year levels.

These comments were positive in terms of outcomes, such as “the interactive
whiteboard proved to be of great success in students’ learning” and also in terms of
highlighting the benefits of being a reflective practitioner.

Semester Two

In order to embed IWBs into the production and presentation of the mathematics
education unit ‘Working Mathematically’ and to promote the pre-service teachers’
organisational skills, the lecturer set as part of the unit, a series of potential uses for the
IWB for each of the pre-service teacher led presentations. Due to time constraints in the
class there was no prior modelling of how to use the IWB in these tutorial
presentations. There was, however, an account of what was expected from presenters
with regard to their use of the IWBs. The students worked in groups of three to present
a tutorial based on a mathematical concept area selected during week one of classes.

In holding learning to be a social activity, the lecturer subscribed to learning theories
that promote the negotiated construction of knowledge where beliefs and
understanding are reinforced as vital to learner engagement and knowledge
construction. The lecturer often discussed with the pre-service teachers how easily
class and small group discussions can be built around the activities on the IWB and
directly worked to have them articulate what they considered to be the value of IWBs
to their teaching style. They were asked, among other things, to use wherever possible
the interactive whiteboard to display information to the class.

Pre-service teachers were asked to present information in an interesting and engaging
format to the rest of the class and were alerted to the availability of IWBs and
supporting software and hardware. The pre-service teachers were strongly encouraged
to access these sites as needed, find relevant information and use the IWBs to display
this information during their presentation. It must be noted here that the lecture
theatre and one classroom out of the rooms used for tutorial presentations did not
have an IWB installed but they did have rooms with computers linked to projectors. In
lectures the many benefits of using IWBs were often referred to and demonstrated
where possible. For example: in Lecture Three on ‘Place Value’ it was demonstrated
how using the IWB could release a teacher from making resources such as a number
expander. One ‘master’ copy could be created on the IWB and students could come to
the front of the class and manipulate the ‘master’ when or as needed, noting that the
master could easily be saved for future use. A key aim was to have pre-service teachers
find ways to creatively capture attention and imagination by including direct links to
teaching/learning opportunities via the IWB.

Outcomes of Semester Two

It was expected that by designing lessons around the IWBs the pre-service teachers
would provide streamlined presentations using efficient integration of ICT. It was
anticipated that presentations would begin addressing what Glover and Miller (2001)
identify as the three levels of whiteboard use. These were that teachers draw upon a
variety of ICT-based resources without disruption or loss of pace, the use of IWBs for
extended learning, and using more engaging materials to explain concepts. The final



Campbell and Kent 455

type of IWB use identified was the creation of new learning styles stimulated by
interaction with the whiteboard.

Pedagogically speaking, the teacher believed that avenues for learning could be
established that specifically addressed collaborative group work around the IWB. Pre-
service teachers were alerted to the benefit of the IWB’s visual presence and to the
interactive opportunities it offered the class. Pre-service teachers were particularly
involved in discussing how beneficial the IWBs were in constructing and
deconstructing mathematical equations as well as negotiating understanding.

Throughout the second semester little to no transfer of the technological knowledge
gained in the first semester’s ICT course was used in the ‘Working Mathematically’
course. Pre-service teachers rarely used the IWBs in their presentations and when they
were used the presentations were superficial and class engagement severely limited.
Despite providing multiple use options and offering clear directions to use IWBs in
presentations, the pre-service teachers shied away from embracing the technology.

Outcomes and evaluation from the La Trobe University example

In Semester One, students used ActivStudio (Promethean, n.d.), an IWB software
program as part of class lessons. The students were also involved in a discussion
pertaining to classroom activities that use IWBs. Students often also commented on the
use of IWBs in primary classrooms as part of a discussion that revolved around their
practice teaching. Although in Semester One pre-service teachers were given clear
instruction in the technicalities of IWBs and an opportunity to investigate potential
teacher/learner use, they were reluctant users of IWBs in the second semester. Pre-
service teachers either used the IWB simply as a presentation tool, an outcome
discussed in research by Armstrong, Barnes, Sutherland, Curran, Mills and Thompson
(2005), as a clear hindrance to interactivity, or they neglected to use the IWB at all.
Indeed, many pre-service teachers displayed that they had accessed sites, as directed
for class presentations, by bringing printed copies of a flipchart or an annotated
assessment map etc., to share with the class. In fact they presented these hard copies
while standing in front of an IWB designed to accommodate this very type of
presentation, yet made no attempt to use it. When on the odd occasion the pre-service
teachers did access the sites referred to via the IWB, they rarely engaged peers in
discussions about what was being displayed and did not attempt to manipulate the
applications displayed.

The pre-service teacher-led class work did not demonstrate a clear engagement with
IWB instruction in their pedagogy. Despite developing realisations that they needed to
know more about IWBs, for example how a flip chart works once you have it located,
they appeared reluctant to address this need once each class was complete. As the
second semester developed, and it should be noted here that there was a strong
cohesion and genuine mutual respect for each other in each class, there was rarely a
time when pre-service teachers demonstrated a strong understanding of IWB use by
assisting peers struggling with IWB activities. In the future more links will be made
between units and through this it is hoped that students will increasingly use IWBs
throughout their course and while practice teaching.

Perhaps the pre-service education students were not able to integrate IWBs into their
university course because they have not seen IWBs used well in primary school



456 Australasian Journal of Educational Technology, 2010, 26(Special issue, 4)

classrooms. Students often reported the boards were not being used in innovative
ways, thus setting a pattern for these pre-service teachers to not use them well.

Case Two: University of Canberra and ACT Department of Education

This example of integrating IWB use was developed in the Australian Capital Territory
(ACT) by the ACT Department of Education and the University of Canberra, in an
attempt to improve the skills of teachers in using IWBs, as well as give pre-service
teachers knowledge about when to use IWBs once they are practising teachers.
Interactive whiteboards were first introduced into schools within the ACT during
2002. In 2005 an ACT Government initiative subsidising purchases of interactive
whiteboards by schools significantly increased their numbers within schools. This
created a need for extensive in-service teacher professional development. A peer
coaching and mentoring model was adopted to deliver this professional development.
IWB Master Teachers were trained and then led school-based projects to support the
implementation of IWBs within their local area. The IWB Master Teacher training was
a five-day course, spread over a ten-week period. Within each session, in-service
teachers were exposed to a new IWB teaching technique which they could then
integrate into their teaching practice over the course of a fortnight. Participants were
then able to share and discuss their experiences, before being exposed to a new IWB
teaching technique. The first three days of the program were devoted to exploring the
potential of IWBs to improve pedagogy, consistent with the New South Wales (NSW)
Quality Teaching Framework. The ACT Department of Education has formally adopted
the Quality Teaching model as its defined pedagogical strategy to support the delivery
of the curriculum to ACT schools. The section below first described the Quality
Teaching Framework and then describes the five-day course.

Quality Teaching Framework

The IWB pedagogical skill set used within the pre-service course is based on the NSW
Quality Teaching Framework (NSW Department of Education and Training, 2004).
Quality Teaching has a strong foundation in research (Newmann, Marks & Gamoran,
1996; Newmann, Secada, & Wehlage, 1995). The framework consists of three
dimensions (Intellectual quality, Quality learning environment, Significance), each
comprising six elements of pedagogies.

IWB technical skills

The potential range of IWB technical skills that can be learnt is vast. The range of
potential IWB software that pre-service teachers may encounter, and the fast pace at
which IWB hardware and software is upgraded, means that the skill set required by
teachers is constantly changing. Given this, the clear focus of the pre-service training
course was on developing an understanding of teaching strategies that focus on the
pedagogical skills that are associated with IWBs in education. This was carried out by
conducting the workshops in a computer laboratory so that skills were taught in a way
that was predominately hands on.

Delivery of ICT pedagogical skills

Teachers acquire pedagogy skills through an extended process of dialogue and
reflection undertaken by a team of teachers (Gore, Griffiths & Ladwig, 2004; McRae,
Ainsworth, Groves, Rowland & Zbar, 2000). The common call for pedagogical change



Campbell and Kent 457

associated with the introduction of IWBs indicates that the bulk of exemplary
pedagogical practice involving the use IWBs within the classroom is still being or is yet
to be developed (Miller, Glover & Averis, 2005). In this context the delivery of
professional learning needs to be shifted from teachers as receivers of knowledge
developed by others. This pre-service training course is designed to support a cycle
where pre-service teachers develop opportunities and trial applications of IWBs, reflect
upon the outcomes, and develop further the opportunities for the effective
enhancement of teaching and learning though the use of IWBs.

Day One: Enhancing the intellectual quality of lessons with an IWB

Day one focused on the teachers gaining an understanding of how an IWB has the
ability to provide classes with content that can be easily manipulated. This ability
provides teachers which a wide range of opportunities to lead rich class discussions,
allowing students to move beyond memorising the content of the board to engage
more deeply with the underlying concept being taught (Kent, 2008).

This day focused on the Quality Teaching Framework’s dimension of intellectual quality
with the importance of this dimension shown in the research data. Students within
classrooms that have a high level of intellectual quality achieve improved student
outcomes (Newmann, et al., 1996). Indeed, Amosa et al. (2007) indicates that high
levels of intellectual quality can significantly close the gap between students of high
and low socio-economic status. More fundamentally, the inherent importance of this
dimension lies in the fact that it focuses teachers and students on the processes and
outcomes of learning. ‘Traditional pedagogies’ that proceeded quality teaching and
authentic pedagogies seemed generally didactic, treating knowledge as a body of facts
to be learnt rather than discovered.

The dimension of intellectual quality encourages teachers to understand deeply their
subject areas and to demand that students reflect this depth through analysis and
interpretation of information presented. The dimension of intellectual quality insists
that students weigh up conflicting points of view and wrestle with the ambiguous
nature of knowledge. Students become acquainted with the meta-language specific to
various disciplines of study as well as learning that understanding comes through
sustained and elaborate ‘conversations’ with others and with oneself through a process
of reflection. Without a high level of intellectual quality within lessons, students avoid
having to understand the complexities and inferences of a subject area and instead
focus on memorising the content presented so that it can be recalled on assessment
tasks exactly the same way it was read or heard. Thus it is important that teachers
understand this dimension.

Day Two: Increasing the significance of lessons with an IWB

The content of this day focused on the ability of an IWB and other associated
technologies to capture digitally the students’ ‘world’ and to use what is captured as
the context of the lesson. In this way teachers can use the IWB to make clear
connections to students’ prior knowledge, experiences and interests to construct the
‘context’ for their lessons (Kent, 2008).

This day was also underpinned by the Quality Teaching Framework and the quality
learning environment domain which involved pedagogies that facilitate relationships
between and amongst the teacher and students. Within a quality learning environment



458 Australasian Journal of Educational Technology, 2010, 26(Special issue, 4)

the focal point was one of learning and was evident through the engagement and focus
of the students. This dimension dictates that the environment within the class must
hold high expectations of students so that they are empowered to take risks with their
learning, and feel safe and supported in doing so. The findings of the study by Amosa
et al. (2007) indicate student achievement can improve significantly when the tasks
include explicit quality criteria that contain within them high expectations for student
performance.

The pedagogies that underpin the dimension of a quality learning environment insure
the necessary social and attitudinal criteria for learning; the dimension of ‘intellectual
quality’ contains pedagogies that relate to cognition and the cerebral construction of
knowledge; however in order for learning to be meaningful and relevant it also needs
a context. The pedagogies that underpin the dimension of ‘significance’ aim in a large
part to provide this context. Beane (1995, p. 616) argues that “the source of curriculum
ought to be problems, issues and concerns posed by life itself”. The concerns being
those that are both personal to students lives and problems put forward by the wider
world. The dimension of significance encourages new learning to be based on previous
learning from both previous school and non-school experiences. The knowledge of
social and cultural group needs to be recognised and valued.

Day Three: Using an IWB to promote a supportive classroom environment

The content of this day focused on how an IWB can contribute to more effective
communication within a classroom. The IWB can provide increased opportunities to
present information including visual, auditory and textual information. This enhanced
communication can be used to more clearly describe explicit quality performance
criteria and set high expectations for students (Kent, 2008).

Day Four: Coaching and mentoring

The fourth day focused on coaching, mentoring and in-service presentation strategies.
IWB Master Teachers were required to prepare three workshop presentations that
corresponded to the Quality Teaching Framework concepts of the first three days. The
general mode of delivery of ICT pedagogical skills during these workshops were
guided by the principles outlined by the ‘learning by design’ model of teaching
outlined by Cope and Kalantzis (2005). This model is characterised by four main
phases:

• Experience the new – Immersion of participants in cutting edge examples of how
IWBs are being used well.

• Analyse critically and functionally – Workshop participants will analyse and interpret
the examples such that links are drawn between the examples and how they
enhance particular elements of the quality teaching framework, and extrapolate
how this principle can be transferred to their own teaching context.

• Conceptualising – Participants will identify and define features of the specific
hardware or software that where key in enhancing the teaching and learning
experience in the exemplars.

• Transforming practice - Participants will construct a plan to enhance a chosen
element of the quality teaching framework through the use of relevant technology.
This plan would also include a reflection and refinement tool.



Campbell and Kent 459

Day Five: Workshops to pre-service teachers

The fifth day presented the IWB Master Teachers with the opportunity to conduct
professional development workshops for pre-service education students from the
University of Canberra. This was seen as a way of honing their professional
development presentation strategies. This day began with the 60 pre-service teachers
being divided into four groups. They then completed three practical sessions
throughout the day with sessions relating to each of the dimensions of the Quality
Teaching Framework. These sessions were called ‘Enhancing intellectual quality within
lessons with an IWB’, ‘Increasing the significance of lessons with an IWB’ and ‘Using
an IWB to promote a supportive classroom environment’. The eight master teachers
were split into pairs to present one of these topics with all pre-service teachers having
access to a PC with IWB software on it during each of the sessions. The groups of pre-
service teachers rotated around three of the four pairs of master teachers during the
three sessions and at the end of the day each pre-service teacher had been through the
three workshops including being supplied with support notes. This model of teaching
proved particularly effective for both the pre-service teachers and the master teachers
with positive feedback received from each group.

Outcomes and evaluation from the University of Canberra example

There were a variety of outcomes achieved from the day with the pre-service teachers.
The goals of the day were for the IWB Master Teachers to gain confidence in
presenting workshops relating to IWB teaching strategies as well as for the pre-service
teachers to gain a greater understanding of IWB pedagogy – goals which the
participants regarded as highly successful. As space was limited, a total of 60 pre-
service teachers were able to participate in the final day of the workshops.
Participation for the university pre-service teachers was voluntary and not linked to
any course or assessment activity. Demand from pre-service teachers to participate in
this day was strong with more students wanting to participate than there was capacity
to cater for. Formal feedback gathered from the 60 students who participated within
Day Five was very positive. This included 55 pre-service teachers who rated the day as
being ‘Very high’ or of ‘High quality’. While 57 pre-service teachers indicated that they
would ‘recommend’ the workshops to fellow students. This day will continue to run in
future years and perhaps more often throughout the year.

By conducting this day the pre-service students directly learnt skills as described by
Kennewell (2006) and Schuck and Kearney (2007) relating to the IWB and effective use
in the classroom. These skills, along with information learnt on how to apply the
Quality Teaching Framework, will be very useful to the pre-service teachers in the future.
It is hoped these future teachers will be able to apply the skills learnt in the day to their
classrooms once they are teachers.

Recommendations

Australia is currently in the process of a Digital Education Revolution whereby the
Australian Government has announced that $2.2 billion over six years will be put into
various ICT projects and infrastructure, including “new and continuing teachers have
access to training in the use of ICT that enables them to enrich student learning”
(Department of Education, Employment and Workplace Relations, 2010a, p. 1). This
paper thus has wider implications for this Digital Education Revolution, particularly as



460 Australasian Journal of Educational Technology, 2010, 26(Special issue, 4)

at the beginning of 2010 the Australian Minister of Education announced A$40 million
for pre-service and in-service teacher professional development in this area (Gillard,
2010), with the specific areas to be targeted including improving the capability of pre-
service teachers and enhancing the capacity of in-service teachers (Department of
Education Employment and Workplace Relations, 2010c).

Those in higher education are no different to educators across all other educational
sectors in relation to professional development. They must have a positive attitude
toward change, maximise ways to navigate and incorporate modern communication
opportunities into lessons, establish a degree of technical expertise, continue to face
changes in technology, and integrate these changes into their work patterns. IWBs
provide flexible channels for information delivery, offer dynamic opportunities to
disseminate evolving content, and provide an avenue to work with knowledge in
contemporary situations. It is clear that there is a need for structured research studies
to examine why first year pre-service teachers are reluctant users of IWBs, despite
specific support being available. Such research studies should include: an investigation
into how coursework can better address the needs of pre-service teachers; ways to
create more structured links between technology and pedagogy; and strategies to
engage pre-service teachers in a genuine exploration of what IWBs may offer teachers
and their learners. The guidelines for the new funding by the Australian Government
allow for future research in these areas (Department of Education Employment and
Workplace Relations, 2010b).

Universities need to continue to provide unique and varied experiences to pre-service
teachers in a variety of the units they undertake and while on practicum. This will
allow the student teachers to develop skills needed to use technologies, including
IWBs, as this is an important growth area in schools. Perhaps the next step in
providing pre-service teachers skills to being able to use IWBs effectively in the
classroom is to provide more opportunities for them to make use of the IWB as a
central classroom hub.

Conclusion

Although these two examples cannot be compared with each other due to data
collection differences they show two unique ways of up-skilling pre-service teachers in
using IWBs, so that they have greater knowledge of pedagogy using IWBs when
teaching in the future. Although these examples provide overviews of two distinct
educational contexts they indicate how universities in Australia are addressing the
needs of pre-service teacher’s vis-à-vis IWBs as well as how to change pedagogy in
order to effectively incorporate IWB lessons into teaching. This is due to IWBs having
the potential to make a major impact on learning and teaching at all education levels.
For educators in higher education, strategies for the use IWBs in pre-service teacher
education level must be seriously considered. IWBs are currently used in many schools
across the world, however, this use ranges across a continuum incorporating the use of
boards for merely presentation purposes to being an integral part of the primary
school classroom (BECTA, 2003; Schuck & Kearney, 2007).

It is important for academics to continue to offer classroom teachers more professional
development in using IWBs as well as assisting school leaders with whole school
implementation plans. It would be expected that this change and increased use will
assist pre-service teachers in being able to integrate IWBs more comprehensively



Campbell and Kent 461

within their pre-service teaching experiences and following that throughout their
university studies in general. Pre-service teachers are the teachers of the future and
they must have every opportunity to develop both their personal ICT skills as well as
the ICT skills they will be required to teach. Thus, more research is needed on how
universities are successfully implementing IWBs into pre-service education courses.
With increased funding it may be possible to set up more programs where both pre-
service education students and in-service teachers can assist each other with learning
and using pedagogies that improve teaching outcomes, and enhance the effectiveness
of IWB use in classrooms across the Australia.

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Dr Chris Campbell
Lecturer, ICT Education
School of Education, The University of Notre Dame Australia
Sydney Campus, 104 Broadway (PO Box 944), Broadway NSW 2007
Email: ccampbell1@nd.edu.au
Web: http://www.nd.edu.au/sydney/schools/education/staff/ccampbell.shtml

Peter Kent
Assistant Manager, Learning Technologies Section
ACT Department of Education
GPO Box 158, Canberra ACT 2601, Australia
Email: Peter.Kent@act.gov.au