Group items tagged

EXAMPLE The following example applies Gagne's nine instructional events: Instructional Objective: Recognize an equilateral triangle (example from Kearsley 1994a). Methodology: Gain attention - show a variety of computer generated triangles Identify objective - pose question: "What is an equilateral triangle?" Recall prior learning - review definitions of triangles Present stimulus - give definition of equilateral triangle Guide learning - show example of how to create equilateral Elicit performance - ask students to create 5 different examples Provide feedback - check all examples as correct/incorrect Assess performance - provide scores and remediation Enhance retention/transfer - show pictures of objects and ask students to identify equilateral triangles.

EXAMPLE The following example applies Gagne's nine instructional events: Instructional Objective: Recognize an equilateral triangle (example from Kearsley 1994a). Methodology: Gain attention - show a variety of computer generated triangles Identify objective - pose question: "What is an equilateral triangle?" Recall prior learning - review definitions of triangles Present stimulus - give definition of equilateral triangle Guide learning - show example of how to create equilateral Elicit performance - ask students to create 5 different examples Provide feedback - check all examples as correct/incorrect Assess performance - provide scores and remediation Enhance retention/transfer - show pictures of objects and ask students to identify equilateral triangles

EXAMPLE The following example applies Gagne's nine instructional events: Instructional Objective: Recognize an equilateral triangle (example from Kearsley 1994a). Methodology: Gain attention - show a variety of computer generated triangles Identify objective - pose question: "What is an equilateral triangle?" Recall prior learning - review definitions of triangles Present stimulus - give definition of equilateral triangle Guide learning - show example of how to create equilateral Elicit performance - ask students to create 5 different examples Provide feedback - check all examples as correct/incorrect Assess performance - provide scores and remediation Enhance retention/transfer - show pictures of objects and ask students to identify equilateral triangles

EXAMPLE The following example applies Gagne's nine instructional events: Instructional Objective: Recognize an equilateral triangle (example from Kearsley 1994a). Methodology: Gain attention - show a variety of computer generated triangles Identify objective - pose question: "What is an equilateral triangle?" Recall prior learning - review definitions of triangles Present stimulus - give definition of equilateral triangle Guide learning - show example of how to create equilateral Elicit performance - ask students to create 5 different examples Provide feedback - check all examples as correct/incorrect Assess performance - provide scores and remediation Enhance retention/transfer - show pictures of objects and ask students to identify equilateral triangles.

The primary significance of this hierarchy is to provide direction for instructors so that they can "identify prerequisites that should be completed to facilitate learning at each level" (Kearsley 1994a). This learning hierarchy also provides a basis for sequencing instruction. Gagne outlines the following nine instructional events and corresponding cognitive processes (as cited in Kearsley 1994a): gaining attention (reception) informing learners of the objective (expectancy) stimulating recall of prior learning (retrieval) presenting the stimulus (selective perception) providing learning guidance (semantic encoding) eliciting performance (responding) providing feedback (reinforcement) assessing performance (retrieval) enhancing retention and transfer (generalization)

Similarly, inadequate hardware and software, slow internet connections, learners’ procrastination, lack of technical expertise among the instructors, insufficient orientation for learners, and a lack of release time for instructors to develop and design their online courses have been cited as barriers to faculty participation in developing and teaching online courses (Nkonge & Gueldenzoph, 2006). The researchers recommended training and support for instructors. Supporting faculty becomes significant because of the number of faculty who begin the online teaching experience with little knowledge of the process of designing, developing, and instructing an online course (Cuellar, 2002).

Both novice faculty, who may have been reluctant to participate, and expert faculty play a significant role in guiding the types of support, assistance, and training provided by institutions of higher education. Rockwell et al., (1999) evaluated the types of education, assistance, and support that faculty felt were needed to be successful in online teaching and learning. Faculty responded with the assertions that assistance and support for developing instructional materials, developing interaction, and for applying certain technologies were critical to their success in online environments. Faculty regarded teaching online as more difficult than teaching traditional courses (Gerlich, 2005) as well as complain that online delivery were more labor intensive because of the amount of time required to grade papers and respond to questions (Lao, & Gonzales, 2005; Wegmann, & McCauley, 2008; Sellani & Harrington, 2002). In other studies, faculty felt that additional instructional and technical support were needed because faculty were genuinely concerned about the quality of their online courses and the amount of technical assistance and training available to them at their institutions (Allen & Seaman, 2008; Keengwe, Kidd, & Kyei-Blankson, 2009).

Surveys conducted by Brogden and Couros (2002), Grosse, (2004), and Lorenzetti, (2004) suggest that the time and effort demands to develop online courses and to learn new technologies are also causes for faculty member’s frustrations. Additionally, some faculty members may resist online teaching because they are concerned that those courses may require more time for advanced planning (Matsom, 2006). Further, faculty members may be hesitant about this shift due to the fact that they may lose autonomy and control of the curriculum, lack of technical training and support, and lack of release time for planning. Generally, understanding the differences between traditional face-to-face learning environment and online learning environment, and the process of being able to shift from one modality to the other, will give faculty members the ability to design better online courses and focus more on course delivery (Conrad, 2004; Harlow, 2007; Marfoglio, 2006, Sugar, Martindale, & Crawley, 2007). Faculty members may also need to rethink (a) the nature of the content to be taught (b) their role as faculty members and (c) the needs and requirements of the students (Ben-Jacob, Levin & Ben-Jacob, 2000; Lee & Busch, 2005; Jones, Kollof, & Kolloff, 2008).

basho ("shared context in motion") can help us think about how a context constrains or supports different types of (inter-)actions, and also about how we (re-)shape the contexts we find ourselves in.

the modules must be small in size (noting that heterogeneous granularity will allow people with different levels of motivation to collaborate by contributing smaller or larger grained contributions);

The view of fluid social contexts advanced by Engestrom as a move beyond the traditional "communities of practice" view is quite compatible with the most famous peer production virtue, freedom (cf. ), which is what allows people to function in a distributed and nonlinear fashion relative to a learning or production "ecosystem". Star and Griesemer[16], on whom Wenger drew heavily as he was developing the idea of community of practice[17], describe their view as "ecological". One key difference between Star/Wegner on the one hand and Engestrom on the other has to do with the nature of boundaries. In the community of practice view, boundary objects exist to effect translations or initiations. In Engestrom's view, attention is drawn to boundaries that remain in flux (via an ongoing process of co-configuration) or which are blurred (e.g. by a blurring of consumer and producer roles).

e encourage the research community to test our ideas in practice of various forms. Some ideas for paragogical design include: Establish a group consensus for expectations/goals/social contract of the course and how each of them should be evaluated at its conclusion. Have learners designate learning goals that they then commit to stick with. Formalize a process for assisting peers (e.g. responding to questions, giving feedback on publicly posted work). Develop explicit pathways for learner feedback to translate into changes to the learning environment