franklin.pdf


 

Australian Journal of 
Educational Technology 
 
2001, 17(1), 37-49 

 

Managing change: The use of mixed delivery 
modes to increase learning opportunities 

 
Sue Franklin and Mary Peat 

Biological Sciences, The University of Sydney 
 

Science teaching in the new millennium will need to suit the students’ 
needs and understanding, and employers’ expectations. Choosing to learn 
will help form the learning opportunities presented. This paper looks at the 
way the delivery of teaching and learning materials for large first year 
biology units of study has changed over a period of time during which 
there have been reductions in staff resources and increases in student 
numbers. The strategies currently used to manage student learning and 
improve the learning experience will be detailed. These include a mix of on 
campus and online opportunities such as the management of laboratory 
classes in a peer mode model and the recent re-purposing of existing online 
resources to provide a Virtual Learning Environment (VLE). The VLE offers 
a safe, student centred learning environment with access to synchronous 
and asynchronous communications, and access to learning and assessment 
materials. Reasons for the development of the VLE are discussed, with 
ideas on the management of campus based teaching in the experimental 
sciences. 

 
Introduction 
 
Universities today are in transition. Much of the change we see is driven 
by economic pressures and demands for graduates who will be able to 
function in a knowledge society. To cope with these pressures and 
demands, the majority of universities are turning to the use of the Internet 
and intranets to deliver courses at distance as well as to enhance on 
campus educational programs. Information technology (IT) has the 
potential to solve many of the problems associated with these societal 
pressures and the concurrent changes in the higher education sector (costs, 
quality of materials, focus on customer needs, response to competitive 
pressures). IT can change the roles of students and teachers, facilitate more 



38 Australian Journal of Educational Technology, 2001, 17(1) 

 

student centred learning and expand the scope and content of the 
curriculum (Horgan, 1998). The concept of lifelong learning and its 
merging with post-tertiary work is a reality and education needs to take 
on a more societal based outlook to provide for these demands. New 
models to address issues such as increased student mobility and choice, 
the merging of work and learning, and ubiquitous, affordable 
communication systems must be developed. 
 
There are important issues confronting academics teaching in large first 
year science courses, such as student retention and progression, equity of 
access to resources as well as the changing needs of incoming students. 
Many of these issues arise from the increasing number and diversity of 
students, concurrent with the reduction in recurrent resources. We are all 
struggling with a reduction in tenured staff and an increase in casual 
teaching in first year, along with the added pressure to increase research 
output. For many staff, working with first year students is now seen to be 
a less valuable activity than supporting the learning environments of 
higher year students (which yield honours and postgraduate candidates), 
as previously recognised by Christopoulos, Rohwer & Thomas (1987).  
 
The ability of many students to attend campus is often compromised by 
their need to seek paid employment (McInnis, James & McNaught, 1995). 
Students juggle university commitments with employment, potentially 
missing some of the structured teaching and learning sessions and, more 
importantly, not being able to take advantage of campus based course 
materials and face to face assistance from staff. Part time work makes it 
extremely difficult for some students to fulfil course expectations 
(McInnis, James & McNaught, 1995). Demographic data from over 700 first 
year biology students at the University of Sydney show that students are 
not only taking a full time university load but are working long hours in 
paid work (Peat & Franklin, 2000). These surveys show that since 1998 
both the percentage of students in work and the number of hours worked 
has increased. In 1998, 48% of students undertook casual work during the 
semester and worked on average 5-10 hours per week, whilst in 2000 the 
number of students in casual paid work had increased to 67%, averaging 
from 5-15 hours per week. This is in agreement with a recent Australia 
wide survey (McInnis, James & Hartley, 2000). 
 
A small shift away from courses comprising all face to face student-teacher 
activities to courses with a mix of face to face and online activities has the 
potential to help those very students who may otherwise give up when the 
pressure of time and other commitments increases. It is also acknowledged 
that students have different study skills and therefore we need to use a 



Franklin and Peat 39 

 

variety of techniques to assist their learning, which must be embedded in 
the teaching and learning environment (Lewis, 1993). Changes that would 
allow a more flexible approach include: improved access to learning 
resources; provision of flexible student support systems including 
counselling services, bridging, catch up, remedial and study skills courses; 
and the development of learning resources and experiences that cater for 
different learning styles (Lewis, 1993). Computer learning resources 
delivered on the Web can fit these descriptors, but to be effective 
courseware must offer an opportunity for learners to address a topic 
through a range of activities appropriate to all learning styles (Valley, 
1997). 
 
Some of the recent moves in online presentation have been to develop 
Virtual Learning Environments (VLEs). Virtual learning environments can 
be described as online domains that permit synchronous, collaborative 
interaction among teachers and students, while also providing 
asynchronous learning resources for individual use by students at any 
time (Barajas & Owen, 2000). VLEs thus offer a learning system made up 
of many components, with all the advantages of computer based learning 
but with the added advantages of access and use over the Internet. VLEs 
today include a plethora of alternative teaching spaces including Internet 
based courses, teleconferencing courses and virtual reality courses. The 
common link for all environments is that students come to a ‘place’ or use 
a technology to link them to a place to acquire new knowledge (Peat, 
2000). 
 
For the institution a VLE can offer a place where much of the essential 
learning for a course could occur, be encouraged, managed and 
monitored. For the students a VLE can offer a flexible, self paced, self 
centred learning experience that better suits the timetable of the students 
and their perceived learning needs (Palloff & Pratt, 1999). Within the VLE 
students are able to view course materials, work on projects in small 
collaborative groups, engage in discussion, access reference materials, and 
communicate with their peers and teachers.  
 
A VLE can be divided into working spaces (often as ‘rooms’ or 
‘laboratories’) that are connected to each other by ‘exits’ or ‘pathways’ 
according to an intuitively spatial arrangement. This allows students to do 
the same things online as they can do in a face to face situation, e.g. 
students can meet in small discussion rooms; they can ‘walk’ to a virtual 
library; visit a resources centre; or visit their teacher’s virtual office (by 
email) to ask a question. 
 



40 Australian Journal of Educational Technology, 2001, 17(1) 

 

In First Year Biology at the University of Sydney a mix of on campus and 
online activities is used to create a better set of learning experiences for the 
students. Whilst the lectures are still very traditional in their delivery, 
students are encouraged to work collaboratively in peer groups during 
laboratory sessions, and either in groups or on their own when working 
online. Not only does this mix encourage the development of life long 
learning strategies but it is also sustainable in the current economic 
climate. The students are characterised by varied academic backgrounds 
(including a large range of incoming entry grades and some with no 
previous biology experience), with a varying interest in biology and with a 
range of generic skills. The student body has not changed in its 
characteristics over the last five years but it has grown in number from 
1200 to 1600. Teaching in first year biology involves repeat lecture series, 
multiple concurrent laboratory sessions, seemingly never ending reports 
to mark and vast numbers of examination papers to grade. 
 
The sheer size of the operation can lead to impersonal interactions 
between the staff (dwindling in number) and the students (increasing in 
number). In 1990 there was one full time academic (identified as being a 
member of the first year team) per 100 students, whereas in 2000 there is 
one similarly identified full time academic per 163 students. The original 
development of an online resources room was discussed in Franklin & 
Peat (1998a). The re-purposing of this resource into a virtual learning 
environment is documented in Peat (2000). This paper will discuss the mix 
of learning opportunities available to students taking first year biology 
units of study, describe the virtual learning environment, and assess the 
effect the virtual learning environment is having on the learning 
opportunities of the students. 
 
The mix of learning opportunities 
 
For more than ten years there has been a move within our first year units 
of study to change the philosophy from teaching students to facilitating 
student learning, especially within the laboratory experience. Early 
changes involved organisational and structural issues, such as the way the 
laboratory classes were designed or reviewing which activities best suited 
a student centred learning approach. Teaching methodologies and 
scenarios have been put in place that emphasise small group teaching and 
student centred learning, and facilitate the development of learning 
communities in class, all of which encourage peer assisted learning, 
communication skills and socialisation of the students (Franklin & Peat, 
1996). Delivering learning materials on computer, firstly within the 



Franklin and Peat 41 

 

laboratory class and then on the Internet, improved the access of students 
to the learning opportunities. With the development of a virtual learning 
environment on the Web we are now in a position to exploit best practice 
in web based delivery. 
 
On campus 
 
Our units of study are still campus based and students attend lectures and 
laboratory sessions in most weeks of the semester. There is a slight trend 
towards a reduction of the face to face delivery of these materials but in 
the light of strong departmental opposition to reducing the number of on 
campus lectures, this is a slow process. Laboratory sessions are a feature of 
experimental science disciplines and at least some of these sessions need to 
be retained. The introduction of computers in 1994 as a permanent feature 
in the laboratory and the development of computer assisted learning 
modules (CAL) to target specific learning difficulties led to a focus on the 
use of computers in the learning process. This in turn led to the 
development of an online resources room (Franklin & Peat, 1998a), now 
re-purposed to provide a complete learning environment online. 
 
Online 
 
Since the early 1990s the use of computers in education has led to an 
explosion of material and delivery modes for teaching, learning, and 
assessment tasks. As a result of this we were able to offer the students a 
variety of computer based materials in our units of study, which with the 
development of the Internet were put online. 
 
During 1999, feedback from student questionnaires, interviews and group 
discussions, as well as discussions with academic staff and the webmaster, 
indicated a perception that the original online resources room had become 
overcrowded and confusing, and that it had outlived its usefulness. It was 
perceived that there needed to be clearer separation of the functions, such 
as the separation of the learning resources from the communication 
facility, as well as the incorporation of additional functions. In particular 
there was a need to separate the functions of the communication facility to 
include asynchronous communication between students and staff on 
administrative matters and technical issues associated with the use of our 
materials over the Internet. These were seen to be issues best addressed by 
non-academic staff rather than academic staff, who currently were 
receiving all inquiries. In addition there was a need to offer students 
specific information about each unit of study to give a better sense of 
continuity and direction but without losing the functionality of the 



42 Australian Journal of Educational Technology, 2001, 17(1) 

 

original online resource. This led to the development and launching of the 
Biology Virtual Learning Environment in semester 1, 2000. 
 
The Virtual Learning Environment 
 
The design of the VLE uses a building metaphor, the building representing 
the School of Biological Sciences. On completion of the VLE students will 
enter the foyer of the building and take the lift to any of Levels 1 to 3, 
representing the three years of undergraduate study. Currently our first 
year students log on directly to the VLE at the Level 1 Lobby (representing 
first year studies). Once in the First Year Lobby students are presented 
with access to general materials and help functions. Figure 1 shows the 
layout of the lobby [refer http://fybio.bio.usyd.edu.au/vle/L1/]. From 
the lobby the building metaphor is continued enabling students to enter 
various rooms, each of which represents a unit of study in first year 
biology, the Resource Centre (parts of the original online resources room) 
or other areas within the University, such as the University Library (Fisher 
Library catalogues).  
 

 
 

Figure 1: First Year Biology Lobby 
 



Franklin and Peat 43 

 

Within the lobby there is a notice board with the names and email 
addresses of staff, a coffee table with general information, and access to 
CyberAdmin and CyberTech, for answers to general questions of an 
administrative or technical nature. Importantly the lobby has doors 
opening into the separate units of study, with semester 1 units being on 
the same level as the lobby and the semester 2 units on the mezzanine 
floor. The Resource Centre contains all the computer based learning 
resources for all the units of study. All the icons/objects in the lobby and 
the unit of study rooms have “mouse over” pop up labels to assist with 
navigation. 
 

 
 

Figure 2: Unit of Study Room 
 
The lobby leads students through a door into a unit of study. Once inside a 
unit of study room (see Figure 2) there are resources available that are 
appropriate for the unit and exits to areas such as the University Library 
and the Lobby, and doorways to the lecture theatres (lecture notes) and a 
seminar room (web based discussions). On the wall a notice board 
provides current information concerning that unit of study. CyberTutor 
appears here and is available to discuss biological content, while 
CyberAdmin and CyberTech are also available in the unit of study room. 
The development of CyberTutor was discussed previously (Franklin & 
Peat, 1998a) and whilst Barnes (1999) emphasises the need for students to 
remain anonymous when communicating electronically with staff, we 
have not found that this lack of anonymity deters the students from 
contacting us: in fact the opposite may be true. Learning materials are 



44 Australian Journal of Educational Technology, 2001, 17(1) 

 

available from computers (tutorials, revision modules, remedial materials 
and self assessment modules) and there is a desk where students can 
access tests and exams (answers to weekly self test questions from the lab 
notes and to a mid course exam and sample exam questions). In this way 
the students are directed to focus their attention on the materials, 
communication functions, and discussion forums that are available for the 
specific unit of study without being presented with all the materials 
available in the Resource Centre.  
 
A discussion forum, specific to the unit of study, encourages students to 
access each other in real or virtual time, although it is best used 
asynchronously. It allows students to post questions or discuss any topic 
with their peers. A general biology discussion forum is also available via 
the lobby. Student use of this facility was slow initially but has increased 
as more students obtain better access to the Internet and their skills in 
using these facilities improve. Discussion topics include: exams; lectures; 
lab reports; ethics of using animal materials; posters; lecture theatres; how 
to reference URLs; and technical help with downloading materials. Future 
development will include staff mediated discussions. These are currently 
being trialed using WebTeach and have proved to be most successful, 
especially during periods of report writing and examination preparation. 
 
Evaluation of the use of the Virtual Learning 
Environment 
 
External peer reviews of the biology learning environment have been very 
positive (Jones, 1999; Fyfe, 1999). Jones (1999) stated that the site is an 
impressive product of a dedicated teaching group, who have whole 
heartedly embraced the versatility of online teaching and also indicated 
that the pedagogy had been carefully considered in the design of the site. 
Jones also highlighted comments made by students in the discussion 
forum (which gave insights into their experiences of the learning process) 
as an example of well designed electronic learning materials. Fyfe (1999) 
felt that the strengths of the site are the Self Assessment Modules, the 
CyberTutor facility and the discussion lists and was pleased to see the 
amount of course content discussion between students. 
 
In April 2000 a survey was sent by email to 400 of 1300 students (all 
students are provided with a free email address by the University) 
regarding their access to computer resources, and their perceptions and 
usage of the VLE. The response rate was 25%. It is appreciated that the 
results may be slightly biased towards students who take the trouble to 



Franklin and Peat 45 

 

use the email provided. Of those students 98% had used the VLE, 94% 
were connected to the Internet at home but only 68% had loaded the 
required plug in Shockwave for Authorware on their machines. Of those 
student who had used the VLE all of them had accessed the lecture notes 
whilst less than 45% accessed other material such as computer based 
learning modules, self test answers etc. Use of modules is probably related 
to the requirement for Shockwave. Most students (82%) found the site easy 
to navigate. This data can be compared to a 1999 paper based survey 
indicating 93% of students had used the online resources room with 81% 
accessing it from home. 
 
Compared to previous years, 16% of students have found accessing our 
materials frustrating this year, as most of the CAL requires the plug-in 
Shockwave for Authorware, which has increased in complexity and 
download time, causing problems for students. To address this extensive 
download time we are providing CD-ROMs with Shockwave for students, 
to facilitate their access to our materials. 
 
We have also come to realise that due to increased usage of the Internet in 
homes for business, pleasure, research for school projects and for access to 
the VLE, our students may be experiencing difficulties in their households 
competing with other users of the Internet and the available telephone 
lines. A recent survey indicates that 37% of students using the Internet at 
home report competition for its use. We will consider offering a CD-ROM 
next year with all the CAL modules, thus giving students better access to 
our learning resources whilst leaving the communications side of the VLE 
dependent on the Internet. 
 
Analysis of CyberTutor usage indicates that the students are using the 
facility mainly for accessing information about academic matters (lectures 
and lab classes) and that queries about Internet use have begun to decrease 
(see Figure 3). This reflects the increased skill base of the incoming 
students and also the fact that we have made a greater effort to help our 
students develop the generic skills required. The total number of enquiries 
to staff via CyberTutor is still rather low and this needs to be investigated. 
However the student usage of face to face consultations is also declining, 
which may be a reflection of the increasing numbers of students in paid 
employment and the decline in on campus time available. 
 



46 Australian Journal of Educational Technology, 2001, 17(1) 

 

0 

10 

20 

30 

40 

50 

60 

1997 B 1998 A 1998 B 1999 A 1999 B 

exams 
lectures + labs 
Internet 
Other 

 
 

Figure 3: Email enquiries by category as a percentage of total enquiries. 
“A” represents Semester 1 each year and “B” represents Semester 2. 

 
Discussion 
 
In Australia, as elsewhere in the world, most institutions in higher 
education are committing themselves to using computers in education. 
This is happening for four compelling reasons: the number of staff per 
student has decreased; the modularisation of courses is increasing the 
pressure to share materials; technology is beginning to offer stability to 
meet user expectation; and there is a consumer expectation that an 
institution will be heavily involved in information technology and 
computer assisted learning materials. In the science context there is a 
strong push to investigate alternatives, such as virtual dissections, 
experiments and field trips, to some face to face laboratory experiences.  
 
The new technologies have the ability to provide greater flexibility to our 
students by providing learning environments that are accessible to 
individuals any time and any place, and, due to their capacity for 
interaction and feedback, cater for different learning styles. However, we 
see IT resources as an adjunct to human teachers, facilitating learning 
rather than teaching. First year biology aims to mix virtual learning on the 
Internet with “real” face to face learning in laboratory sessions and 
lectures, with an emphasis on accessing learning resources via the Internet. 
Our VLE is neither a substitute for nor a complete departure from, the 
traditional teaching environment, but a compelling extension of it. The 
challenge we face is to identify the best in VLE-type learning and use it in 
conjunction with traditional classroom teaching.  
 



Franklin and Peat 47 

 

We have used a mix of face to face activities and online activities to offer 
students a greater flexibility in the learning environment. Candy, Crebert 
& O’Leary (1994) suggest that courses that enhance lifelong learning must 
offer some flexibility in structure and provide for development of self 
directed learning. In line with this we have changed our philosophy from 
teaching students to facilitating student learning, especially within the 
laboratory experience, with a move from teacher centred to student 
centred learning. The introduction and use of computers along with peer 
group learning communities in our large classes, and the effect this has on 
facilitating student learning, has been discussed elsewhere (Franklin & 
Peat, 1998b). 
 
Gibbs (1992) proposes that the appropriate focus of attention in improving 
the quality of student learning is course design and process rather than 
teaching and content: we support this. In addition, it has been argued 
(Fraser & Deane, 1997) that students must engage in meaningful learning 
if they are to become suitably equipped for the workplace, with a 
knowledge base and understanding that is expandable and transferable in 
years to come. With these in mind, we initially created an online resources 
room to help students engage in meaningful learning, This led to the 
development of a Virtual Learning Environment in which we offer 
students opportunities to be involved in group or individual activities. 
Current research is targeting the overall fit, in our units of study, of the 
learning opportunities - lectures, independent study modules, lab classes, 
and revision and self help materials online, with an emphasis on the use of 
computer/web based materials. 
 
The future for science teaching is to use the resources in the best possible 
mix for the discipline and one of the issues for the future will be how we 
assess the effectiveness of the mix of learning opportunities. Evaluation of 
the contribution of all components within a unit of study, and not just the 
computer/web based materials, is essential. 
 
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Barnes, D. J. (1999). Public forum help seeking: The impact of providing anonymity 
on student help seeking behaviour. Proceedings of Computer Based Learning in 
Science Conference, The Netherlands, July 1999. [viewed18 Aug 2000, verified 16 
Mar 2001, abstract] http://www.cblis99.freeuk.com/abstract.htm#A3 

 



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Sue Franklin, Biological Sciences 
The University of Sydney, Australia 
sue@bio.usyd.edu.au 
 
Mary Peat, Biological Sciences 
The University of Sydney, Australia 
maryp@bio.usyd.edu.au