ALT-J, Research in Learning Technology
Vol. 12, No. 3, September 2004

ISSN 0968–7769 (print)/ISSN 1741–1629 (online)/04/030295–05
© 2004 Association for Learning Technology
DOI: 10.1080/0968776042000259591

DISCUSSION

Understanding and using technological 
affordances: a commentary on Conole 
and Dyke
Tom Boyle* & John Cook
London Metropolitan University, UK
Taylor and Francis LtdCALT120308.sgm10.1080/0968776042000259591ALT-J, Research in Learning Technology0968-7769 (print)/1741-1629 (online)Original Article2004Association for Learning Technology123000000September 2004TomBoyleLearning Technology Research InstituteLondon Metropolitan UniversityLondont.boyle@londonmet.ac.uk

Introduction

The paper by Conole and Dyke sets the context by pointing to a number of problems
that inhibit the widespread, effective use of Information and Communication
Technologies (ICT) to support learning. They argue that this situation highlights the
need to explore a theoretical basis for the use of ICT to support learning. The central
argument of the paper is that the notion of affordances can make a significant
contribution to this endeavour. The paper aims to articulate the potential impact of
these affordances primarily through the development of a taxonomy. It draws on
social constructivist theory to help understand and articulate the impact of these
affordances.

The concept of affordances is potentially both rich and provocative. Conole and
Dyke provide a refreshing and diverse look at the theoretical basis for the use of ICT
to support learning. We have structured our commentary around six questions that
are provided by Conole and Dyke in their Discussion section. Whilst examining these
questions we highlight various issues raised by the paper, which we believe, need
further consideration and clarification.

Commentary

Question 1: How valuable is the concept of affordances and does its application provide any 
really new insight into the inherent properties of technologies?

There are really two questions here. This section will concentrate on the first
question, which involves clarifying the central concept of affordances. This central
concept in the paper is only briefly explored before the paper moves to building a
taxonomy. McGrenere and Ho (2000) point out, however, that the concept of

* Corresponding author: Learning Technology Research Institute, London Metropolitan Universi-
ty, UK. Email: t.boyle@londonmet.ac.uk



296 T. Boyle & J. Cook

affordance is not well understood, and that there is considerable ambiguity and
confusion in the use of the term. A brief exploration of how the concept has been used
in the psychological and human computer interaction (HCI) literature helps to clarify
the important issues surrounding the different uses of this term.

The concept of affordance was developed by J. J. Gibson. Gibson (1977, 1979)
argued for an ecological approach to understanding human perception. He argued
that the environment and animals have co-evolved. There are features of the environ-
ment that afford (i.e. enable) perception and action in that environment. They are not
constructed by the person. They exist independently in the environment, and are
discovered rather that constructed by the human (or animal) actor. Thus a rigid
surface stretching to the horizon under our feet affords locomotion; an object of a
certain size affords grasping and so on. Gibson’s concept has to be understood within
this ecological approach. He argues, ‘The world of physical reality does not consist of
meaningful things. The world of ecological reality … does’ and ‘their meanings can
be discovered’ (Gibson, 1979, p. 33).

The idea of affordances was popularized in the HCI community by Donald
Norman in his book ‘The Psychology of Everyday Things’ (Norman, 1988).
Norman, however, introduced a number of changes, which led to subsequent
confusion and variability in the use of the concept. The most fundamental
difference relates to Norman’s concern, as a designer, with making affordances
salient so that users can easily perceive them. Norman conflates two important but
different things—designing the utility of an object and designing the way in which
that utility is conveyed to the user. In his later work Norman acknowledges the
confusion and seeks to distinguish ‘real from perceived affordances’ (Norman,
1998, p. 123).

McGrenere and Ho (2000) provide an informative analysis to clarify the situation.
They distinguish the utility of an object, the actions it affords for the user, from the
usability of an object, which is related to the perceptual information that signals the
affordances. They propose that there can be degrees of affordance (Warren, 1995),
and that affordances can be related in sequential or nested structures. This analysis
and clarity in the use of the term is missing in the article by Conole and Dyke which
moves rapidly to using the term before analysing and articulating it. The danger is
that it falls into the problem identified by McGrenere and Ho, ‘ As the concept of
affordances is used currently, it has marginal value because it lacks specific meaning’
(McGrenere & Ho, 2000, p. 8).

Question 2: How valid is the methodological approach suggested?

Another important issue is a critical consideration of the ‘taxonomic’ approach to
capturing and representing the implications of the concept. Conole and Dyke argue
that practitioners are often unclear about how to use the technology appropriately.
They then present a taxonomy of ICT affordances as a contribution to solving this
problem. This taxonomy is grounded in the base of ‘current social theory and
critique’.



Understanding and using technological affordances: a commentary 297

The affordances listed are various. The first is called ‘accessibility’—the Internet
‘affords’ opportunities for accessing information and knowledge in a new way. The
authors, however, use accessibility in a non-standard way. They argue for a shift in
the primary challenge from finding to selecting relevant information. This diverges
from the standard concern with accessibility as ‘Access by everyone regardless of
disability.’ (Web Accessibility Initiative: http://www.w3.org/WAI/).

Another affordance proposed by the authors is ‘Speed of change’, which refers to
attempts to understand the question of how technology can ‘be used to enable
students to navigate their way through the myriad of changing information and make
more informed decisions’. However, it is left unclear how this can act as affordance.
A large list of ‘affordances’ then follows in the paper; which includes diversity,
communication and collaboration, reflection, multi-modal and non-linear learning,
and so on. Rather than elaborating on how any one of these ‘affordances’ could be
relevant to a learner or a practitioner the authors tend to indulge in a certain amount
of hopeful expectation that affordances and abilities will simply emerge; for example
in the context of reflective affordances: ‘Perhaps new forms of reflection and critique
will emerge in response to more transitory and digital text.’

Question 3: What other approaches might be taken?

The third question points to the theoretical tension introduced by the use of this
concept—the slotting into a social constructivist approach ignores the quite different
theoretical framework within which Gibson developed the concept of affordances.
The concept of affordances arises from an (biological) ecological approach to human
cognition and perception. The natural home for an approach based on Gibsonian
affordances is not social theory. The concept might have been used to challenge the
limits of social theory rather than be simply being assimilated into it.

A key question is—does the concept of affordances really help? The authors
articulate certain opportunities that the technology makes available to practitioners.
They then balance these positive features with difficulties or challenge that are raised
for users. If these barriers are not dealt with effectively then the opportunities may not
be exploited. How does the concept of affordance enrich this approach?

If we stick with Gibson’s original concept, then one approach is to articulate the
‘ecological’ approach that is at the base of Gibson’s concept of affordances, and to
contrast it with the predominant social constructivist approach. This theoretical
tension could be uncomfortably productive, as Gibson’s approach is (a) not construc-
tivist, and (b) not social, though it is, in its own way, interactionist. The technology
changes the ‘habitat’ in which we live. This new habitat affords new ways of doing
things. An articulation of the affordances of this new environment enables us to adapt
more effectively to the (new) opportunities, and avoid the (new) pitfall where ‘new’
here may indicate a significant degree of change that has marked implications for
adaptive behaviour. The transition from the natural habitat that concerned Gibson to
the technological habitat of ICT supported learning provides ample opportunities for
theoretical elaboration.



298 T. Boyle & J. Cook

Question 4: The approach suggested reflects a particular interpretation of social theory. Is this 
a limitation and might a broader analysis of other social theories yield new insights?

If the term is going to be used in a post-Gibsonian way to focus on social factors,
which could be productive, then there is an existing relevant body of work (e.g.
Laurillard et al., 2000; Kreijns & Kirschner, 2001; Kreijns et al., 2002). Kreijns et al.
(2002), for example, have proposed a theoretical framework for ‘social affordances’
by suggesting the incorporation of certain properties in Computer Supported
Collaborative Leaning (CSCL) environments. These properties are meant to act as
social contextual facilitators, i.e. social affordances, to initiate and sustain learner’s
social interactions. Ultimately these properties are intended to create a social space
amongst the members of distributed learning groups. Kreijns et al. (2002) base their
environment on a theoretical framework that suggests the embedding of certain prop-
erties in CSCL environments: 

that act as social-contextual facilitators relevant for the learner’s social interactions. When
they are perceptible, they invite the learner to act in accordance with the perceived affor-
dances, i.e., start a task or non-task related interaction or communication. (Kreijns et al.,
2002)

Furthermore Kreijns et al. (2002) include a software tool that aims to provide the
learner group with awareness about the others in the task and in the non-task context.
To merely provide affordances for group interaction may be insufficient for the
development of a true knowledge-building community. Hewitt et al. (1997) have
suggest that a set of tools that permit the individual to monitor communal activity and
their own participation in the activity is also required. This a productive direction that
is currently being explored by Garnett and Cook (submitted). However, we note that
the authors briefly mention as a footnote a planned DialogPlus tool.

Question 5: Practitioners are still exploring the potential of new technologies, and the current 
uses of technologies often do not take full advantage of the medium. Therefore, how can 
practice take full advantage of the affordances of ICT?

and

Question 6: Does understanding of the affordances actually get us closer to improvement in 
practice and is this a useful framework?

Finally, we briefly comment on the potential limits in the scope of the application of
this concept to e-Learning and present an alternative. Developing taxonomies that
make affordances explicit so that practitioners can make informed choice about
existing technology may prove useful. However, perhaps another productive goal
would be to develop a framework that allows us to envisage new tools for learning and
to describe the communicative contexts in which these tools could be used. For
example, Garnett and Cook (submitted) envisage the provision of various computer-
based tools to encourage learners to frame their activities in light of a problem (rather



Understanding and using technological affordances: a commentary 299

than a topic), e.g. a tool to create discussion notes; a tool to author with (e.g. to
develop a personal web page), a tool to structure learners’ interactions in light of
statements of proposed problem solutions and information needed to advance that
solution. Located at the heart of these learning tools is a Community Knowledge
Map. This map would be used to identify hot-spots of community activity and
clusters of related work, and to depict the work of the entire community rather than
the work of an individual author.

What is required in all approaches is serious attempts to include new empirical
observations of learning in the evolution of new frameworks, tools and systems to
support (i) tutors as they make decisions about the use of new technology, (ii) learners
as they learn, and (iii) systems designers and developers as they envisage new
innovative tools to support learning.

Conclusion

Conole and Dyke have provided a useful examination of the use of affordances to
provide a theoretical basis for ICT learning support. We hope some of the issues
raised above lead to a productive debate in this area.

References

Garnett, F. & Cook, J. (submitted) Models of learning with ICTs in community settings, Technology,
Pedagogy and Education.

Gibson, J. J. (1977) The theory of affordance, in: R. Shaw & J. Bransford (Eds) Perceiving, acting
and knowing (Hillsdale, NJ, Erlbaum).

Gibson, J. J. (1979) The ecological approach to visual perception (Hillsdale, NJ, Lawrence Erlbaum).
Hewitt, J., Scardamalia, M. & Webb, J. (1997) Situative design issues for interactive learning

environments: the problem of group coherence, paper presented at the Annual Meeting of the
AERA, April.

Laurillard, D., Stratfold, M., Luckin, R., Plowman, L. & Taylor, J. (2000) Affordances for learning
in a non-linear narrative medium, Journal of Interactive Media in Education, 2. Available online
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Kreijns, K. & Kirschner, P. A. (2001) The social affordance of computer-supported collaborative
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