CN: Your Cyber Image

I completely agree with utilizing current technology such as a good CMS (be it WordPress, Drupal or something else) to project the public image of the school. For information that is parent or student specific, there are many ways to grant limited access via password and user settings, and in addition, for anything learning-related (that is, directly related to a class or curriculum, behaviour, attendance, etc), the school should be using an LMS to share this information over the internet.

As Shawn mentioned, teacher pages that are out of date and collecting dust should be shuttered. There are many services available online for teachers who wish to present a public portfolio, and the truly web-savvy can work with one of these or manage their own domain. For communication with students, the LMS or CMS can serve this purpose.

As with any company, a school should be concerned with its brand. A public school where student populations are more set and consistent can use their public online face to build community relationships and keep parents and neighbours abreast of ongoing events, be they sport, art, club or academic. A good community of support around the students can only enhance their experiences.

For other schools, such as universities and private institutions, the public webpage serves a purpose primarily as a marketing/student recruitment tool, secondarily as an information portal for existing parents and students, and also as a point of contact for staff recruitment. A quick glance at any well-constructed international school website will demonstrate all of these aspects, usually with a parent and student communication area behind a login screen.

Short of human resources and will, there are no reasons why schools at all levels can’t have a professional face to present the community. Where there is a lack of staff capability, there are student resources available as well as the associated learning opportunity that maintaining the school website can provide. Much like the student newspaper and yearbook, the calendar or event listings can be kept up to date; older students can produce videos and podcasts or other media for distribution, providing lessons not only in website management and development, but media, privacy, and responsible internet “face.”

CN: Web Development

Question: What types of advancing technology provisions are available in your field to better enable you to enhance learning opportunity for your students? Your task associated with this topic is to review the the contents of this topic, look into the links included in the text of the contents and provide a reply to the two question items that appear at the end of the article itself. The challenge is to update contents, augment it with latest in your area or field of specialization, and generally refresh it for use in areas that would be familiar to you and provide a basis from which you can explore other possibilities for the use of learning technology in your field. What are the learning features and information sources needed to enhance learning in your field?

Speaking directly to the situation of foreign language instructors in Korea and other nations, there is a dire need for even the most rudimentary training. Instructors who come are almost always untrained teachers with little or no experience teaching any subject or skill, let alone a language in a foreign language. Instructors rely on their own memories of their experiences learning foreign languages, if they did at all, and cobble together ideas of best-practice from the under-qualified instructors in their immediate environment. For teachers who do spend time and money pursing training, trainers are often peers with little experience or training, although some specialists are available. This situation is evident in a visit to the national conference for English teachers here in Korea.

What needs to be done for the field? In many ways, there are problems with motivation and perceived need. For “teachers” and employers alike, there is not a perceived need to actually teach; it is enough to have a visible “native speaker” (as though these people were authorities on their own language and how to learn it, simply because they can communicate in it and may or may not have mastery) in the same room as the learner. To be fair, some teachers take their role seriously and pursue learning at every opportunity. These teachers may at some point work toward certification or higher education in the field, but for too many it is merely enough to get through the 12-month contract, get paid, and get out.

For those who wish to become competent but who are unable or uninterested in pursing official certification, there is little in terms of competent training resources available. Most of what is free is merely anecdotal how-tos by others in the same circumstances, that is, novices evaluating their own performance. A clear need is for easily accessible training for novices interested in developing their skills. Official sources often require time away from work, the classroom, and therefore a source of income, placing a barrier between potential trainee and the training.

When it comes to teaching students, however, resources abound. Korea is interested in moving toward the highest forms of widely available technology for use in the classroom. While the universities are slower to adopt technologies such as interactive white boards (IWB), both public and private schools are quickly adopting IWBs, ebooks and other technologies in the interest of better education for students. The level of training that educators receive, however, on how to use and best implement these new technologies (and even more elementary- are they helpful?) is unclear.

The greatest technology, which is not widely available, is the technology of better pedagogy. Korean instruction is still largely stuck in a DI model, which some claim is a holdover of Confucian authoritarian structures. If this is true, there are core cultural barriers to change. Without cultural changes, or a shift in mindset, the greatest technological advances may be stymied by lagging pedagogy.

Resources worth using later from the readings:

Evaluating Web Pages: Techniques to Apply &Questions to Ask UC Berkeley – Teaching Library Internet Workshops: A good primer on evaluating the authority of web pages and their content, including Internet-specific skills such as URL truncation

Internet Dectective: Wise up to the web – Good resource for students preparing for/new to college regarding Internet research and authoritative websites.

CN: Web-based Learning

Coultas, J., Luckin, R. & du Boulay, B. (2004). Is There Compelling Evidence for the Effectiveness of E-Learning in Higher Education?. In J. Nall & R. Robson (Eds.), Proceedings of World Conference on E-Learning in Corporate, Government, Healthcare, and Higher Education 2004 (pp. 1828-1834). Chesapeake, VA: AACE.

Abstract: Is there evidence for the effectiveness of e-Learning in the Higher Education sector? This paper offers an overview of theories of learning in instructional contexts and then lists some of the varied and diverse definitions of e-Learning. The question of the extent to which a learning philosophy is implicit (or even explicit) within each definition of e-Learning is raised. The development of a search strategy and the issues of inclusion and exclusion criteria in assessing the evidence for the effectiveness of eLearning are briefly described. A modified form of a systematic review is offered as a methodology suitable to locate and evaluate the evidence needed.

Key Questions:

Is learning in Higher Education different to the learning that occurs in compulsory education?
Is it useful to revisit theories of learning in instructional contexts?

E-portfolio: Future goals

This eportfolio is really bare-bones and I hope it will eventually grow into something amazing. Something amazing would probably look like Stian’s PhD Wiki, with the accompanying incredi-workflow. Unfortunately for us mere tech mortals, this is a cobbled-together solution that isn’t a stand-alone plugin or series thereof that can be easily implemented. I haven’t yet started to learn Ruby, so I’m certainly not going to be able to pull this off any time soon.

What I do really like about the wiki, however, is how the research is documented, the individual author pages and the like. As I move through my own research, my own projects and such, it would be really nice to have something a little more like that. For now, I’m using WP because I’m both comfortable with it and familiar enough to make it jump through a couple of hoops for me when I need it to. I’m not convinced this is best, however. The further I get into this, however, the harder it is going to be to get out.

Future wants:

a running bibliography of things I’ve read and my comments on them. I have this all in devonthink right now, but I want something online in the interest of open academia. This is a particular strength of Stian’s wiki that I think is valuable.
a repository of things I’ve tried in classes and how well they’ve worked, or not, and why.

6 Things To Teach Students About Social Media – Edudemic

In my class Issues and Trends in Ed Tech class, we had a group project that looked at digital citizenship for students. This article is somewhat related, and discusses several issues that students need to be up to speed on as they grow with social media. Not only are their reputations and privacy a concern, they also discuss soft skills like networking, becoming an expert, benefits of good search skills, and staying abreast of trends and changes in the world around them.

Details here:

6 Things To Teach Students About Social Media – Edudemic. via Jackie Gerstein.

5 Essential Questions to Ask Before You Innovate in Your School | edSocialMedia

5 Essential Questions to Ask Before You Innovate in Your School | edSocialMedia.

Via Jackie Gerstein’s Twitter feed.

I often complain about how I see technology (and by that I mean largely computers and the Internet) being implemented in education. What waste. What effort. What….disappointing results.

It’s not all bad, however, and before implementing technology, or at any evaluation stage, you want to be asking these questions of your structures, motivations, and desired outcomes.

Project-Based Learning: Success Start to Finish | Edutopia

A Step-by-Step Guide to the Best Projects | Edutopia.org

In learning about how PBL works, I found this website by Edutopia extremely enlightening. The content is clearly laid out, and while I don’t teach high school students, I teach university freshmen who are, in many ways, still very dependent on their teachers.

I’m interested in both PBL and flipped learning, and I’m really scratching my head as to how I can start implementing these practices in my university classes. Barriers to this change include unified testing across sections of the course (all students take the same exams), unified grading system and a culture that is heavy on direct instruction.

Last year, however, I had a fair amount of success negotiating content with students and setting them off on their projects when I didn’t have this system to work under. I also had no idea PBL even existed, so there are several things I would do differently if I were running the activities again. I am quite certain the resources included in this PBL Best Practices outline would be quite handy, and I’ll be needing these again as I try to determine how I can escape this direct instruction death spiral that is my teaching environment.

Lessons from second semester

Grad school this semester has been a real struggle for me. I suppose it was last semester as well, which came as a bit of a shock, but I chalked it up to getting back into the swing of things. I told myself I was just getting my feet back under me and that I’d be good to go next time around. After all, I was a Dean’s List student in ungrad. I always scored high in assessments throughout my life. I loved the research aspect of my undergrad courses. Why would I expect any different in graduate school? I was made for academia. So my decision at the outset to take on three courses this semester, up from the two in my first semester seemed doable. The first week of class I looked at the syllabi and said to myself this was not only possible, but I could kill this. What was that about pride and a fall?

So here I am nearing the end of second semester and I’m still not where I want to be. So much so that I think I’ll shift to part-time status next semester. If it weren’t for one of the classes I’ve been taking, however, I would probably give up completely. I know the stats on distance ed dropouts; I focused on motivation in distance education setups in one of my first semester courses. I don’t think it’s motivation, however, that makes up the bulk of my problem. I think it’s learning style.

In the first module of my course on designing web-based learning, we took a Multiple Intelligences survey. I was not surprised that my results came out in such a clump. I’ve always seen myself as a jack-of-all-trades, master of none. What was shocking, however, was how my linguistic intelligence was basically second to last. It’s not that I’m a language buffoon. No, I’ve always loved reading and books, and have a rather deep and complex vocabulary, and I speak three languages. It’s not that I have problems with words. It’s just that I don’t learn as well in a text-based environment. And the key to my struggle in grad school might just be that very thing: it’s almost entirely text-based. From readings for class, participation in online forum discussions, to negotiating group projects, it’s all text. I don’t speak, I don’t listen, I don’t watch, and short of my arms from the elbows down, there’s not a whole lot of movement, either. It’s just not engaging.

That’s not (entirely) the professors’ fault. There are technology barriers that have existed until very recently, and high-speed access to the internet is not required, although for some assignments it certainly has been, as I learned while in Indonesia. And so while video lectures might not be available to all students in all places, it certainly would be nice to have them as an option for learners who have that capability (after all, there aren’t many people in the program, I would guess, without at least access to Youtube or the ability to download video and audio podcasts to the phone or computer). At the very least, audio lectures would supplement nicely and give me the opportunity to at least listen and take notes, a system I know works for me.

When I reflect back on learning successes of my recent history, I have come to realize that I’m very much a visual and kinaesthetic learner. Lynda.com was an invaluable resource for me when I learned a lot of the tech skills that I’ve acquired. Other books from PeachPit Press (Visual QuickStart series). I learned these things through watching and trying myself. Even back in university I had near-verbatim notes from a lot of my classes, and I think the physical writing aspect was key to internalizing a lot of that information. So, in retrospect, had I been aware of my learning style in a little more detail at the outset of the semester I probably would have reduced my class load instead of convincing myself that there was just some hump I had to get over. Sometimes I wish foresight, rather than hindsight was 20/20.

So now I’m up against the end of the semester, too much to do, too much undone, wishing I had the chance to do it over again. One thing’s for sure: going forward, I’m going to have to do things differently, and that’s going to start with a more manageable workload.

CN: Technology and Culture

Ed Theory and Technology

Introduction

For one of my courses I need to do some remedial reading on education theory. Since I didn’t do my undergrad in education, I don’t have the background of some of my classmates, and so I’m grateful for this package of information. I’m going to document my notes below.

Learning Objectives:

After completing this unit you should be able to:

explain the difference between an archetype, a paradigm and a model;

discuss the key characteristics of Davies’ three educational technologies;

discuss the key principles of behaviourism, cognitivism and constructivism;

explain the key differences between behaviourism, cognitivism and constructivism;

discuss the difference between the objectivist and the subjectivist epistemologies;

discuss the implications of behaviourism, cognitivism and constructivism on instructional design and development;

explain the five perspectives on teaching; and

appreciate the value of different approaches to teaching and learning.

Obj 1: Archetypes, Paradigms and Models

When first talking about technology, Davies (1978) discusses the differences between decisions, which are choices before an event “between a range of alternatives, none of which is probably more right than the other” (p. 10), whereas judgements take place after an event and are choices between “‘right’ and ‘wrong’; a choice between ‘good’ and ‘bad’ or ‘true’ and ‘false'” (p. 10). From this he goes on to note that when choosing a technology for use in education, one might start by making a choice but must at some point afterward make a judgement and evaluate these decisions for their worth.

Questions for Reflection

What is the difference between an archetype, a paradigm, and a model?

Archetype: “The viewpoint or perspective used by someone engaged in an act of inquiry” (Davies, 1978, p. 16). A framework or prototype useful for in-communication about the “myths, dreams and ritualised models of professional conduct” (p. 16). They are the framework on which the community is built. Can limit growth beyond the commonly-held ideas of what education or teaching is. Archetypes can serve multiple paradigms but often only serve one.

Paradigm: The paradigm is a concept with more structure around a given idea or theory, including “definitions, statements and interrelationships between the statements” (Davies, 1978, p. 17). Diagrams are often used to explain the relationships between different aspects of a phenomena, revealing methodologies and suggest research questions for further study. The paradigm is more limited than a worldview, and is rarely a new idea, as an archetype may be. Educational technology paradigms may be recognised in two ways: 1) it is new enough to be appealing, drawing adherents away from other paradigms, and 2) is not yet fully formed, allowing for adherents to add to and refine the basic structure while bringing in yet more adherents (Davies).

Adherents to a specific paradigm share values and concerns, often working together with a common set of authoritative texts and a set of rituals (Davies, 1978). This paradigm is the glue that holds their work together in a common set. Davies laments that educational technology is (at the time of writing) greatly lacking breadth in its paradigms, with the variation that does exist lacking creativity in distinctions.

Pedagogies and curricula designs, while called “models,” are actually paradigms (Davies, 1978).

Paradigms are constructed to prove they are wrong, allowing it to be replaced with another paradigm that more accurately reflects reality (Davies, 1978).

Model: Usually at least partially quantitative, is more specific and detailed than a paradigm (Davies, 1978). The example Davies gives is that of a model car, in which the model can be used to determine the facts of reality on the basis of a certain scale. Another example given is that of a map, where distances on the map correspond to distances in reality. Davies attributes the rise of models as an authentic source of knowledge based on three factors: 1) manipulation of people and organizations is unethical/unlawful, 2) the costs of dealing with actual people is too high, given the increasing uncertainty that may breed errors, and 3) contemporary models are actually pretty good at representing reality, so confidence in their results has increased (Davies).

Models, unlike paradigms, are constructed to use in determining the solution to a particular problem (Davies, 1978). They are often problem-specific, and different models may present the same phenomenon from the perspectives of different paradigms. The strength of the model is the ability to use it to form hypotheses for testing.

Davies (1978) complains that few models in educational technology have been tested, and those that have lack reference to underlying theory. He says the research that has been performed is fragmented and disjointed in such a way that creating a framework for the future from the parts is a Sisyphean task.

Obj 2: What are the key characteristics of Davies’ three educational technologies?

The three educational technologies don’t have any particular names and thus are simply numbered sequentially.

Technology One (T1): Davies (1978) identifies this as being a hardware-driven approach to technology in which education problems are solved with methods common to the physical sciences and engineering. The assumptions are that the technology of the machines employed determines the quality of the output. T1 serves to increase efficiency in information transfer, especially as it relates to larger groups of students. The cost/benefit ratio is primarily financial.

Technology Two (T2): Davies (1978) sees this as a software-driven approach with a basis in behavioural science. The design of the message, rather than the medium, is key to efficient learning according to T2. Curriculum development revolves around “identifying appropriate aims, goals and objections; selecting relevant content and subject matter; choosing contrasting learning methodologies, activities and experiences so as to make for a worthwhile and rewarding course of study; and then evaluating not only the success of the resulting learning experience but also the effectiveness of the very development techniques employed” (Daves, p. 13).

Technology 3 (T3): This technology combines both the hardware and software approaches, rejecting systematic (mechanical) development in favour of systemic (organic) method (Davies, 1978). The focus is on both the process and the outcomes of teaching. Using systems analysis, the technology looks more at individuals as actors in a group rather than individuals independently. The environment (media/hardware) are as important as the message (software/content). Schools, including administration, teachers and students are all part of a symbiotic whole, and the system itself is either healthy or unwell.

As such, T1 sees solutions to problems in transmission-reception, T2 seeks to purposefully shape behaviour, while T3 takes a more integrated approach. It seeks to identify the best approach to a given problem through diagnosis and inquiry without prejudice as to the source of or solution. This inquiry, however, can have messy outcomes. Davies (1978) notes, “What at first might appear to be a nice, self-contained difficulty, can soon become a matter of complexity involving a greatly enlarged context” (p. 14). Davies believes that it is common sense to take a measured approach to change, even when it seems the entire system needs to be dismantled, suggesting that with T3, practitioners must put boundaries on their problem, deal with the primary or immediate problem without going overboard. This method is not efficient, but it may be (eventually?) effective.

Davies (1978) identifies “five skills of effectiveness” (p. 15) that form the foundation of the T3 approach:

sensitivity, so that the needs of the total situation, both people and task, can be sensed

diagnostic ability, so that the nature of the problem or difficulty can be identified and communicated

decision making, so that appropriate actions can be selected from a wide range of possible alternatives

flexibility, so that it is possible to implement whatever the situation demands or requires

action skills, so that routine and mechanistic tasks of implementation can be efficiently carried out. (p. 15)

Davies cautions against biting off more than is possible to chew, respecting the time of both student and teacher in the interest of effort output for greatest return rather than busywork. This will not always be with consensus, but should consider dissenting opinions.

What are the key characteristics of the audio-visual, the engineering and the problem-solving archetypes of educational technology?

When Davies (1978) was writing, he listed the engineering archtype as the most pervasive, in which associated paradigms had a bias toward objectivity as in the hard sciences. Davies quickly dismisses the pervasive assumption of his contemporaries that objectivity was thus the “only paradigm possible in educational technology, especially in the areas of curriculum, course and instructional development” (p. 19). He makes space for subjectivity, calling both it and objectivity assumptions. Much as in the case of light being both particles and waves, he comments that the very process of observation changes the observed, changing the phenomenon merely by observing it. Thus, objectivity is limited, as the mere act of making observations and analysis contaminates. The new archetype, based on problem-solving, employes lateral thinking over vertical. Davies argues that objectivity is devoid of ethical concerns, but this is critical to subjectivity as it draws upon behaviourism. He cautions against Dogmatism, as technologists still need to make judgements and decisions with the information they have, and implies that rigidity can lead to poor conclusions.

The characteristics of each archetype are as follows:

The Audio-Visual Archetype: This is the first of the three archetypes, initially developing in the 1930s and growing in popularity following the second world war (Davies, 1978). This archetype is based on the hardware used to deliver information “chunks;” an aid to presentations and teaching, increasing access to experiences not normally available, expanding the sphere of influence of teachers across geographic boundaries, enriching teaching and learning by integrating with both processes, and in assessment through computers or other machines, expediting the process.

The Engineering Archetype: With growing interest in programmed learning coming to the fore in the 1960s, the Engineering Archetype emerged with it (Davies, 1978). This was still prevalent contemporary with Davies’ article. B.F. Skinner’s influence was heavy on the archetype in which behaviourist technology was implemented on teaching an learning. This archetype is highly process-oriented, in which experiments are repeated with small variations to find optimal approaches to education delivery and reception. It reflects the pharmacological techniques of control and test populations. Davies criticizes this approach, as some technologists lose the forest for the trees, creating overly-complicated systems for analysis when the foundations upon which they are build rely on poor assumptions.

The Problem-Solving Archetype: Was beginning to emerge in the mid-1970s, and Davies (1978) saw it as more innovative, due in part to its relationship with the creative process. As of the late 1970s, it was still in a growth stage. Comparing its approach to a chess game, Davies says this archetype requires intense concentration, ability to foresee consequences to several degrees of removal, flexibility, acquired skills and learning experiences. Activities should be developed out of a sense of dissatisfaction with the goal of resolving it as quickly as possible.

What archetype, paradigm and model of educational technology do you think most of your teaching would fall into?

I teach in a culture where I see (or believe I perceive) methodology sprung largely from the Audio-Visual Archetype, where, as Mark Twain might have said, “a professor’s lecture notes go straight to the students’ lecture notes, without passing through the brains of either.” These lectures rely heavily on powerpoint in a lecture hall with a microphone to amplify the professor’s voice. Students are variously sleeping, talking, texting, making trips into the hall, and yes, a few are cognizant of what is supposed to be happening in the space.

Dealing with these expectations from my students has created some difficulty as I attempt to work within the Problem-Solving Archetype. One might conclude that my foremost problem is primarily one of expectations! As far as the growth of my students in the content area is concerned, many of my colleagues view it as a happy accident when it occurs. This is, as one might imagine, a source of frustration but also of great opportunity. As a visible “other” in the classroom (I am of both a different nationality and ethnicity than my students in a largely homogeneous setting), my proverbial foot-in-the-door to change is my very otherness. From this I am able to create a space, however small, where things are different.

As for my paradigm, I haven’t set myself into any as of yet. The tabula rasa that I work with affords me many opportunities to test and experiment with pedagogy as I see fit. As of this year, some mandates have come in as to how the program will be taught (see the above comment on the Audio-Visual paradigm), but I do my best under it to carve out a space for my own approaches. I have no fear (perhaps to my folly!) of experimenting with new technologies, remixing existing technologies for a new purpose if it solves a pedagogical problem, such as smartphone-based chat groups with students for multi-directional communication (teacher to student, student to teacher and between students). I am not sure that I will ever settle into a single paradigm. For me, it’s a matter of finding the best path for the moment and taking it.

I don’t have a model as Davies defined it; a scaled-down version of how things work. I’m not entirely sure how I would go about creating one. Perhaps the above problem of communication and its solution are an example of a model for my specific context.

Davies wrote his article in 1978, over 20 years ago. Is it still relevant to the thinking of using technology in teaching and learning, today? Why or why not?

Absolutely. A key problem that Davies (1978) is that education has not taken the opportunity to renew itself, which is a hallmark of organizations on the decline. “Instead of viewing educational technology as an opportunity for renewing educational practice, it has, too often, been conceived as a means of doing what has always been done — only more efficiently” (p. 12). As I mentioned in my comment about colleagues in other departments using paradigms from an archetype 90 years old, there is much relevance to these competing ideas.

The Problem-Solving Archetype, in concert with the T3 approach to technology seems to me to be the best possibility to finding successful solutions to educational problems. This is particularly true of the requirements of flexibility and foresight that come out of the Problem-Solving Archetype. As technologies expand and morph at ever-decreasing intervals, these two characteristics of the technologist will be (continue to be?) in high demand. Without these skills, an education technologist will be quickly left behind.

Obj 3.1: Behaviourism

The following information is derived from the online course notes, “Theories of Learning: Behaviourism”

A psychological theory that emerged in the 1920s. Prior to Behaviorism, learning was considered an internal process and “introspection,” a process in which study participants were asked to reflect on their own thoughts, was used to investigate learning. Behaviourists thought this was bunk because there was no external way to measure it. For Behaviourists, learning happens when there is an observable change in behaviour. Everything internal is irrelevant as it cannot be measured or directly observed.

Behaviourism has a few key assumptions:

If you can’t directly observe or measure it, it doesn’t count. The things that count are stimuli on an organism and how it responds to that stimuli.
The mind can’t be studied. Stimuli can go in and responses can come out, but the process is unobservable and unmeasurable, and thus unknowable.
If behaviour hasn’t changed, learning hasn’t happened.

These assumptions affected education in that learning was believed to have happened if there was an observable change in behaviour. Thus, you teach in such a way as to see changes in how people behave. It’s the only way you can know they’re learning

The sorts of activities that resulted from this thinking included drills and similar practice activities. Programmed learning is the extreme version in which instruction is broken into chunks and sequenced. Programmed learning follows a pre-determined course and reinforces correct responses immediately.

Behaviourism has fallen out of favour as it is seen as overly mechanical and insensitive to human learning needs. There may be appropriate applications for some aspects of behaviourism, so caution is needed before dismissing the paradigm outright.

Questions for Reflection:

What are some of the ways in which the behaviourist principle of reinforcement has been applied to education?

drill exercises
practice activities (as in for multiplication tables, basic math priciples)

What are the roles of the teacher and the learner in the behaviourist framework?

What are some of the criticisms of behavioural objectives?

What epistemological tradition (objectivism or subjectivism) do you think underlies the behaviourist view of learning?

Can you think of anything you do as an instructor that is influenced by the behaviourist view of learning?

In what contexts do you think it would be appropriate to use a behaviourist approach to teaching?

In what contexts do you think it would be inappropriate to use a behaviourist approach to teaching?

References:

Davies, I.K. (1978). Educational Technology: Archetypes, Paradigms and Models. In J.H. Hartley & I.K. Davies (Eds.), Contributions to an Educational Technology, Volume 2. (pp. 9-24). New York: Kogan Page.