An evaluation of Virtual Learning Environments and ? An evaluation of Virtual Learning Environments
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Interactive Educational Multimedia, number 3 (October 2001), pp. 3852www.ub.es/multimedia/iemAn evaluation of Virtual LearningEnvironments and their learners:do individual differences affectperception of virtuallearning environmentsDr. Julie RichardsonDepartment Medical and Dental Education. Kings College London.AbstractA widereaching, studentcentred evaluation model was designed, aimed at appraising the quality ofstudents learning experiences after the introduction of a virtual learning environment in two UKinstitutions. A central part of the model was to examine the individual differences of students and howthese interact with their perceptions of this new way of working. The individual differences chosen forexploration included motivational orientation, cognitive style, time management practices, and IT ability.This paper explores the findings of the evaluation with respect to these individual differences and theirinteraction with perception of learning through VLEs. In this aim, it is divided into 3 parts. First, asummary of the evaluation model and a rationale for including the selected individual differences isoffered. Second, details of the data collection process and results are discussed. Finally, the implications forfuture use and curriculum development are considered.IntroductionOne of the most powerful features of new learning technologies is their capacity to individualize instructionto meet the needs of the learner (Ramussen & Davidson, 1996). Selfpaced instruction, the ability topresent content in different ways, features such as hypertext, and a flexibility that allows learners to workwhen and where they want, make virtual environments potentially a very effective learning medium.The use of virtual learning environments has burgeoned in recent years (Price, 1991; Anderson, et al. 1999;Richardson & Turner, 2000). Faced with increasing undergraduate intakes and workloads, higher educationis looking more towards these technologies as a means of supplementing or replacing traditionalfacetoface instruction. In addition software continues to improve in its ability to engage learners andprovide realistic and stimulating learning environments (Price, 1991; Dymcock & Hobson, 1998).As virtual learning environments (VLEs) are introduced in more institutions, it is fast becoming recognizedthat helpful models for evaluating their effectiveness are needed. Adopting appropriate evaluationmethodologies at this stage, offers HE the chance to stand back, to cast a critical eye over developments,http://www.ub.es/multimedia/iemand to appraise the changes for learners, tutors, managers and the wider community, as they are introduced.Recently, studies focusing on this very issue have increased (e.g. Oliver, 1998). However, most of thesestill focus on design and/or usability issues (e.g. Keegan, 1990; Anderson, 1988; Kapur & Stillman, 1997;Sneider, 1998), or compared traditional with technologically distributed courses (Souder, 1993 ). Bothapproaches however have tended to neglect the individual learner, and how learning through technologicalmediums is assisted or hampered by the numerous stable and dynamic characteristics they bring with theminto any learning situation. A brief search of the social sciences citation index yields 898 hits for the termWorld Wide Web, however less than 10% of these describe or evaluate education individual learner,and these still tend to concentrate on technical issues.Richardson and Turner (2000) attempt to redress this imbalance by developing a wide reachingstudentcentred model (see fig.1.0) for evaluating virtual learning environments (VLEs) that alsoincorporates broader teaching and resourcing elements. The model identifies a range of stable and dynamicindividual differences and hypothesizes that these may interact with the learning and teaching processesinvolved. They identify several individual differences, including cognitive style, motivational orientation,gender, and timemanagement skills. If these student attributes are shown to qualitatively affect thelearning experience, they will have significant implications for future curriculum development.This paper seeks to empirically validate this hypothesis through evaluation, by asking, "How do thesestable and dynamic individual differences interact with students experiences of using virtual learningenvironments?" To this end, the paper is divided into three parts. First, an introduction and description ofthe evaluation model is given together with a rationale for inclusion of these individual differences.Second, a description of the project is given and results are discussed. Finally, the implications for thefuture in terms of revising the model and the broader picture of curriculum development are considered.The studentcentred model for evaluating learning technologiesFIG. 1.0 A Model of Learning with V.L.EsThe starting point for developing a model for evaluating VLEs was that learning should bestudentcentred, and therefore any model of evaluating their learning, must also start with the student andwork outwards. The quality and nature of a learning experience in any area are dependent upon an intricateinteraction between the experiences, characteristics and attitudes that a student brings with them, and theattributes of the task environment (Pask, 1976). Thus any evaluation must include both elements. Amodel was constructed to help clarify some of the processes and variables that play a role during learningthrough VLEs. The authors endeavored to integrate a variety of theoretical perspectives to describe andexplain the role of specific variables or processes and to scan their potential interactions holistically (seeRichardson, 1999; Richardson & Turner, 2000 for fuller discussion).Fig. 1.1 Content ModelFigure 1.0 represents the interaction between the task environment and the student. Firstly, the learningmaterials define the task environment. Here the materials have been divided (fig.1.1) into the content; theembedded support devices (ESDs); opportunities for discourse and communication; and opportunities forHigher Order Thinking. Also highlighted here are some of the influences upon the production of thelearning materials, such as subject and university cultural demands, tutor expectations and expertise.Secondly, the students qualities are specified in terms of stable and less stable characteristics. At thecenter of the model are those individual differences that are less likely to change over time, for example,cognitive styles and motivational orientation. Further out are those preferences must susceptible to change.The arrows between the process and variables in the model indicate potential interactions. The assumptionis that elements of the content model will interact with these individual characteristics in different ways.Elaborating Individual DifferencesGenderBarrett and Lally (1999) focused on computermediated communication in a specific context by a smallnumber of postgrad students and their tutors. Content analysis was used to explore possible genderdifferences in the contributions. They found that the learning content of men and women were similar,however their social and interactive behavior was significantly different. It was found that men sent moremessages than women; they wrote messages that were twice as long; and made more socioemotionalcontributions than women. They concluded that the application of learning technologies "may reproducegender differences within a learning community"(p.1). The focus of the evaluation data explored in thepresent paper is upon general differences in perception of VLEs.Motivational Orientation/Achievement MotivationPrevious research has shown a clear relationship between the way students learn best within universityenvironments and their motivational orientation (e.g. Zimmerman & Schunk, 1989). Although the conceptof achievement motivation is plagued with may alternative descriptions, it is generally accepted thatmotivation is a construct that seeks to describe what incites and directs a response (e.g. Skinner, 1974).Achievement motivation is concerned with motivational factors that influence learning (Dweck & Elliott,1983), and the intimate interplay between goals and competence (Heckhausen, 1977; 1981; Nicholls, 1984;1989). Nicholls argued that individuals approach learning and achievement tasks based on their personalgoals and these direct an individuals attitude towards the task. Two distinctively different goals that areoften referred to are mastery and performance goals. An individual with a mastery goal ischaracterized by the concern with increasing competence, or learning for its own sake. In contrast, anindividual operating with a performance goal is characterized with a concern for showing either high abilityor hiding low ability (Dweck & Elliott, 1983). These goals can also be seen as having differentmotivational orientations, task involvement and ego involvement.For purposes of the present study the interest is in the general interaction between students orientations andtheir perceptions and practices using virtual learning environments. In sum the types of questions ofinterest here were, "What are students current positions in a masteryperformance goal continuum?" "Is thequality of learning experiences for students at one end of the continuum different to those at the other?". "Isindependent learning aimed more towards egoinvolved students?" or "Are the same motivationalstimulants of a normal learning environment present in VLEs?".Timemanagement SkillsStudents time is a limited resource and like other limited resources, it can be more or less effectivelymanaged. VLEs have a different set of expectations, and demands on student time and require a differentset of skills to that of more traditional learning environments. Primarily this difference is students use oftime. Timemanagement practices have been the subject of an extensive popular literature (e.g. Bliss,1976; Greene, 1969; Lakein, 1973), but this literature often presents only anecdotal evidence for theefficacy of timemanagement practices. In the research literature, it is generally agreed that intellectualachievement takes time (Barron, 1988; Csikszentmihayi, 1988) and perseverance (Gardner, 1988). Ifeducational achievement, like intellectual achievement in general, takes time, then timemanagementpractices should play a role. In empirical studies of selfregulated learning, researchers have oftenmeasured timemanagement variables in the context of single general variables such as selfmonitoring,selfjudgement, and alertness (Corno & Mandinach, 1983; McCombs, 1986; McCombs, et al., 1990;Zimmerman, 1990; Zimmerman & Schunk, 1989). In this evaluation the aim was to explore whether thenew learning environment, places a different set of demands on students in terms on theirtimemanagement practices. And, if so, what strategies could we develop to assist them. Unlike someindividual differences, Timemanagement appears to have good potential for strategies to help studentsimprove.General questions asked were "Are we expecting to much?" "Do students need more input from usregarding how to organize their time?".Cognitive styleCognitive style has been defined by Tennant (1988) as "an individuals characteristic and consistentapproach to organizing and processing information". In the present context, a cognitive style is consideredto be a fairly fixed characteristic of an individual, in contrast to strategies that are the ways that may beused to cope with tasks. Strategies may vary, and may be learned and developed. Styles, by contrast arestatic and are relatively inbuilt features of the individuals.Several researchers (e.g. Brumby, 1982; Riding et al., 1997; Richardson, 1997) have argued that a numberof cognitive style labels are actually different conceptions of the same dimension. Riding and Cheema(1991) concluded that they can be grouped into two principal cognitive style dimensions which they termedWholistAnalytic and VerbalImagery. They may be summarized as follows;1. The WholistAnalytic style of whether an individual tends to process information in wholes orparts.2. The VerbalImagery dimension of whether an individual is inclined to represent informationduring thinking verbally or in mental images.Researchers have recently focused their attention on the interaction of learners and software in terms oftheir cognitive styles. Riding and SadlerSmith (1992) concluded that there was a significant interactionbetween version of a computerpresented task and cognitive style in their effect on recall. More recently,Ross and Schulz (1999) investigated styles and humancomputer interaction and concluded"computeraided instruction may not be the most appropriate method of learning for all students" (p.5).By including cognitive styles in this evaluation the opportunity of examining the learning environmentsoffered to students and the influence on learning for students with different cognitive styles was exploredby asking "Are VLEs equally suitable for students who have different stylistic tendencies?"In sum, the main individual differences included were gender; timemanagement skills; cognitive style;and motivational orientation, together with students perceptions of VLEsResearch Overview and MethodParticipants and Procedures:To gain as comprehensive picture of VLEs usage as possible, all nine modules presented via LotusLearning were included. All students involved were asked to complete a single questionnaire, whichincorporated motivational orientation, timemanagement skills, and general perception of using VLEs.This was distributed approximately halfway through the semester. There was high return rate of 88%(approx:230 students) to this. Students were also asked to complete the Cognitive Styles Analysis at a timeconvenient to them during the semester.Evaluation InstrumentsThe Motivational Orientation Scale. (MOS) (Nicholls, et al., 1985) was used to assess studentsmotivational orientations. The rating scale has 27 items divided into seven subscales, shown in Table 1.6.Nicholls et al. (1985) combined the first two subscales as an indicator of Task Orientation, and Nicholls(1989) combined the Work Avoidance and Alienation subscales as a measure of Work Avoidance.The format of the MOS employs a 5point Likert scale rating from strongly agree to strongly disagree.Scores on each subscale are calculated by adding points for each itemsfive points being assigned to theresponse of strongly agree, and one point for the response of strongly disagree. A high score on a subscalerefers to a higher level of motivation. The complete test was administered via the student questionnaire.The Cognitive Styles Analysis (CSA). (Riding, 1991) is a computer presented assessment developed fromthe VerbalImagery code test, with the addition of subtests to assess the WholistAnalytic dimension. Itcomprises three subtests. The first assesses the VerbalImagery dimension by presenting statements one ata time to be judged true or false. Half of the statements contain information about conceptual categorieswhilst the rest describe the appearance of items. It is assumed that Imagers respond more quickly to theappearance statements, because the objects could readily be represented as mental pictures and theinformation for the comparison could readily be represented as mental pictures, whereas Verbalisersrespond more quickly to conceptual items because the semantic conceptual category membership isverbally abstract in nature and cannot be represented in visual form.The second two subtests assess the WholistAnalytic dimension. The first of these requires individuals tocompare geometrical figures and judge them to be either the same or different. Wholists tend to respondmore quickly to this task. In contrast the third test, which requires individual to assess whether onegeometrical shape is embedded in another, is performed more quickly by analytics.TimeManagement Practices: Britton and Glynn (1989) described a simple theoretical model oftimemanagement practices intended to maximize intellectual productivity. The instrument used here isbased on a combination of that model and the results of some pilot interviews. This set oftimemanagement questions placed within the student questionnaire, included 18 items, each answered ona 5point scale consisting of the responses, always, frequently, sometimes, infrequently, and never. Inscoring 5 points were assigned to the response at the end of the scale that we defined a priori as the "good"practice and 1 point was assigned to the response at the other end of the scale, with intermediate valuesgiven for the other responses. Higher values on the scale correspond to between timemanagementpractices. See examples in Appendix A.Perceptions of VLEs: student questionnaire: Prior to the start of the evaluation, indepth pilot interviewswere carried out and transcribed. Quotations that supported key themes were selected from these interviewsto form the final section of the student questionnaire. Questionnaires were administered approximatelyhalfway through the semester. Respondents were asked to rate whether they strongly agreed, agreed, wereneutral, disagreed, or strongly disagreed with each of 15 statements. These can be seen in table 1.0.I.T. proficiency: Here students were asked to rate themselves on a 3pointlikert scale (1=yes; 2=maybe;3=no) to 51 questions concerned with I.T. competence. These statements were previously developed andused as a reliable measure of students level of IT skills. (examples can be seen in Appendix A).ResultsGeneral perceptions of VLEsTable 1.0 shows all questions and provides a summary of the data.Table. 1.0: Summary of responses to student questionnaireThese results highlight a number of general issues for example, with regards flexibility of learning (# 1 &6) students generally felt VLEs are flexible in terms of place and time and setting pace of work, howeverthe responses to statement 12 suggest students clearly felt that their flexibility was restricted due tophysical resources. In this case the largest group of respondents were in the neutral group (27%).Interestingly, the number of students who agreed and the number who disagreed were almost equal.One of the strongest issues was students did not feel part of a learning community (#3). They felt moreisolated from their peers, and unsupported in their learning. These results were strongly supported byindepth interviews with students (see Richardson & Turner, 2000).Finally, with regards students knowledge about their own learning, many of the statements may bereflecting students understanding about how they learn and work best. For example, statement 4, "I canmake more effective use of my time when Im learning using VLEs"; and #5 "I like the way theresponsibility for my own learning is on me" raise questions that may be best answered in terms ofindividual differences. In the first of these, combining the two agreed columns and then the two disagreecolumns, generates similar numbers of students who agreed and disagreed. This type of result in theperceptions questionnaire may be reflecting individual differences such as timemanagement, cognitivestyle, motivational orientation etc.Individual differences and perceptions of VLEsGender and perception of VLEsUsing the responses in the questionnaire of perception of VLEs (shown in table 1.0), an overall mean wascalculated for perception of VLE for each student. A higher mean represents a more positive perception. Attest was performed to determine whether male and female students felt differently towards VLEs. Theresults (table 1.1) show that females responded significantly more negatively (pTimemanagement practices and perception of VLEsAll responses to the timemanagement questions in the questionnaire were collated and a mean responsecalculated. A higher mean represents more developed timemanagement practices. The value of thecorrelational coefficient for mean timemanagement skills and mean perception, (r=0.177, p= 0.009)strongly suggests that students who use more developed timemanagement practices have a more positiveperception toward using VLEs (see fig.1.2).Fig. 1.2 TimeManagement and Perception of VLEsMotivational Orientation and perception of VLEs?Students mean responses were calculated for items relevant to the different MOS scales. The mean valuefor each orientation scale was paired with mean perception of VLE and correlation coefficients obtained(table 1.3).Table: 1.3Motivational Orientation and Perception of VLEsFirstly, the correlation coefficient and associated probability for task orientation and perception of VLEssupport the suggestion that students who are inclined to engage and enjoy independent learning activitieswhich keep them busy, have a more positive perception of learning through VLEs. The results also supportthe interview data, where students who seemed have a stronger understanding, motivation towardindependent learning, also expressed more positive perceptions of using VLEs.Secondly, the results for ego orientation, suggest that these two groups also have different perceptions ofworking with VLEs. It is closely related to the concept of extrinsic motivation. Research often suggests thatextrinsically motivated individuals prefer to be in the company of others (Dweck & Elliott, 1983), and, asthe results later describe, students have been expected to use a virtual learning environment, at the expenseof spending time with their peers. They have worked primarily alone. The results do not suggest aninteraction between the avoid inferiority, easy superiority and work avoidance scales.Cognitive styles and VLE perception?The sample was grouped on the basis of their ratios on each cognitive style dimension. The divisions were:Wholists 0.23 to 0.89 (N=75 ), Intermediates 0.90 to 1.12 (N=45), Analytics 1.13 to 3.52 (N=20);VerbalImagery dimension, Verbalisers 0.48 to 1.02 (N=50), Bimodals 1.03 to 1.14 (N=59), Imagers 1.15to 8.21 (N=31). Oneway anovas were performed between each dimension and mean VLE perception. Theresults showed an overall significant interaction between wholistanalytic style and VLE perception(F=4.40, p=0.01). A posthoc Tukey test revealed significant differences (p0.05). The more analytic students were, their perception of VLEs became more positive. With regardsthe VerbaliserImager dimension, a oneway anova revealed no significant differences between the meanresponses of the three VI groups (p>0.05).Conclusion:If electronic distributed learning is to continue to develop successfully for HE then evaluating the quality ofstudent experiences must play a central role. The power of the model designed and implemented here, hasbeen its attempt to place the learner at the center of the evaluative process. Evaluating the quality oflearning experiences began from the student experience and worked outwards. This paper has provided anoverview of the model and presented relevant data to answer the question of whether students perceptionsof using virtual learning environments differ according to a range of individual differences. The keyfindings may be summarized as follows:Female students have a more negative perception of learning through VLEs. This finding may be due to anumber of reasons. For example, Richardson and Turner (2000) report that that after the introduction of theVLEs, there was a significant reduction in collaborative cooperative working, and, generally studentsdidnt feel part of a learning community. Numerous authors (e.g. Burton, 1990; Volman et al., 1995;Hayes & Richardson, 1995) suggest female students prefer instructional methods that adopt group andinteractive methods. A second influence may be initial level of I.T. competence. Females reportedthemselves to have less developed IT skills than male students. Since the evaluation two pilot schemeshave been designed and adopted across two institutions (see Richardson & Turner, 2001) that aim toincrease the cooperative learning and the sense of learning community. However level of students initialIT skills needs further examination, possibly through a more objective means of assessment.A second finding was students with developed timemanagement practices had more positive perceptionsof using VLEs. Clearly, the move towards distributed learning places increased responsibility on individualstudents in terms of organizing their own learning. Not all students have had the opportunity to previouslydevelop these skills and are therefore placed at a disadvantage. This needs further exploration, looking inmore detail at the practices adopted by students, and also in terms of ways in which the university can help.For example, a series of preparatory workshops prior to using the virtual learning environments maysignificantly improve this.Thirdly, students who are inclined to engage and enjoy independent learning activities that keep them busy,have a more positive perception of learning through VLEs. It is reasonable to suggest that these studentsbenefit from the control of their own busyness. Ego orientation, which is closely related to the conceptof extrinsic motivation, was also found to influence the student perception. Those individuals with moreextrinsic motivation were found to perceive the experience as negative. By contrast ego orientated studentsfelt more positive about VLEs. These results are well supported in the educational literature by suggestingthat extrinsically motivated individuals prefer to be in the company of others (Dweck & Elliott, 1983), and,as previously highlighted Richardson and Turner (2000) report a reduction in group activities.Finally, the cognitive style dimension of WholistAnalytic showed that students in the two extreme groups(i.e. Wholist and Analytic) had significantly different perceptions. Wholists found the experiencesignificantly more negative than analytics. These results are congruent with cognitive style theories (e.g.Witkin, 1977). The Verbaliserimager dimension was not found to interact with the perceptions of theenvironments. This dimension is currently being explored further elsewhere in terms of whether thestructure and content of the learning materials provided is more favorable for students along the VIcontinuum.The present study has thus highlighted a number of individual differences that affect the quality ofstudents experiences using virtual leaning environments. Clearly some of these differences lendthemselves to institutional strategies more readily than others. For example the suggestion of workshops toimprove students time management skills and I.T. skills may be fairly simple to implement. However, otherareas such as cognitive style need to explore further in terms of how materials and courses can beenguided in their design and production to cater more effectively for a range of styles. Without this type ofcontinuous and formative evaluation of institutional uses of learning technologies, groups of students maycontinue to be at an unfair disadvantage to their peers.References:Anderson, S.J., Noyes, J.M. & Garland, K.J. (1999) Evaluation of the Internet as a learning tool. Journal ofComputerAided Learning. Vol.15. 8590Barron, F. (1988) Putting creativity to work. In R.J. Sternberg (Ed). The nature of creativity: Contemporarypsychological perspectives (7698). Cambridge, England: Cambridge University Press.Bliss, E.C., (1976) Getting things done: The ABCs of timemanagement. New York: Scribner.Burton, L. (1990) (Ed.) Gender and mathematics : an international perspective (Strand, Cassell).Corno, L., & Mandinach, E.B. (1983) The role of cognitive engagement in classroom learning andmotivation. Educational Psychologist, 18, 88108.Dweck, C.S. & Elliott, (1983) Achievement motivation in P.H. Mussen (gen Ed) & E.M. Hetherton (Vol.Ed) Handbook of Child Psychology, Vol IV Social and Personality Development (643692). New York,Wiley.Dymcock, D. & Hobson, P. (1998) Collaborative learning through videoconferencing and voicemail acase study. Distance Education. Vol.19.No.1. 157171Gardner, H. (1988) Creative lives and creative works: A synthetic scientific approach. In R.J. Sternberg(Ed.) The Nature of Creativity: Contemporary Psychological Perspectives (298324) Cambridge, England:Cambridge University Press.Greene, R.M. (1969) The management game: How to win with people. Homewood, IL: Dow JonesIrwin.Hayes, K. & Richardson, J. (1995) Gender subject and context as determinants of approaches to studying inhigher education. Studies in Higher Education, Vol.20. No.2. 21521Heckhausen, H. (1977) Achievement motivation and its constructs: A cognitive model. Motivation andEmotion, Vol. 1. 283329.Heckhausen, H. (1981) The development of achievement motivation. In W.W. Hartup (Ed). Review ofChild Development Research (Vol 6, pp. 600668).Kapur, S. & Stillman, G. (1997) Teaching and Learning using the World Wide Web: A case study.Innovations in Education and Training International. Vol.34. No.4. 316322Keegan, D., (1990). 'Open learning: concepts and costs, successes and failures.' Open Learning and NewTechnology, Atkinson, R. & McBeath, C (eds) Conference Proceedings, Australian Society for EducationalTechnology, Curtin University, Perth, June 1990, pp 230243.Lakein, A. (1973) How to get control of your time and your life. New York: Signet.McCombs, B.L. (1986). The role of the selfsystem in selfregulated learning. Contemporary EducationalPsychology, 11, 314332.McCombs, B.L. & Marzano, R.J. (1990) Putting the self in selfregulated learning: the self as agent inintegrating will and skill. Educational Psychologist, 25, 5169.Nicholls, J. (1984) Achievement motivation: conceptions of ability, subject experience task choice andperformance. Psychological Review, 91. 328346.Nicholls, J. (1989) The competitive ethos and democratic education. Cambridge, MA: Harvard UniversityPress.Nicholls, J.G., Patashnick, M., & Nolen, S.B. (1985) Adolescents theories of education. Journal ofEducational Psychology, 77, 683692.Oliver, M. (Ed) (1998) Innovation in the Evaluation of Learning Technology. University of North London.Pask, G. (1976) Styles and Strategies of Learning. British Journal of Educational Psychology. 46. 128148Price, R.V. (1991) Computeraided instruction: A guide for authors. Books/Cole. Pacific Grove, CA.Ramussen, K. & Davidson, G.V. (1996) Dimensions of learning styles and their influence on performancein hypermedia lessons. CDROM Proceedings from the annual EDMEDIA/EDTELECOM conferenceArticle No.385.Richardson, J.A. (1997) Field dependence revisited: a theoretical and empirical evaluation for educationand psychology. PhD. Thesis. Lancaster University. England.Richardson, J.A.(1999) A largescale local evaluation of the quality of students learning experiencesusing virtual learning environments: evaluation guidelines Learning Development Centre: StaffordshireUniversity, England.Richardson, J.A.& Turner, A.E. (2000a) A largescale local evaluation of students learning experiencesusing VLEs. Educational Technology and Society. Vol.3. Issue 4. 108125http://ifets.ieee.org/periodical/vol_4_2000/v_4_2000.htmlRichardson, J.A. & Turner, A.E. (2001) Moving forward: marrying sound pedagogical principles withlearning technologies. Paper to be presented at 12th International Conference on College Learning andTeaching, Florida. April 2001.Skinner, B.F. (1974) About Behaviourism. London: Jonathan CapeSchneider, A. 91998) Sociology The internet as an extended classroom. Social Science ComputerReview. Vol.16. No.1. 5357Souder, W. E. (1993) "The Effectiveness of Traditional vs. Satellite Delivery in Three Management ofTechnology Master's Degree Programs" American Journal of Distance Education, 7 (1) pp. 3753.Volman, M., van Eck, E.& Ten Dam, G. (1995) girls in science and technology: the development of adiscourse. Gender and Education. Vol.7. 283292Witkin, H.A. (1977) FieldDependent and FieldIndependent Cognitive Styles and Their EducationalImplications. Review of Educational Research. Vol. 47, No. 1, 164Zimmerman, & Schunk (1989) Selfregulated leaning and academic achievement: theory, research andpractice. New York: Springer.Zimmerman, B.J. (1990) Selfregulated learning and academic achievement: An overview. EducationalPsychologist, 25, 317.http://ifets.ieee.org/periodical/vol_4_2000/v_4_2000.htmlAppendix A:Examples of time management questions,(responses, always, sometimes or never):Do you make a list of things you need to do each day?Do you spend time planning each day?Do you set and honour priorities?Examples of IT competence statements (all responses, yes, no. or maybe):Do you know how to use your word processor to.Create tables?Print a document?Do you knowWhat a database is?The common features of a database?
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