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Tiffany King

learning_theories_full_version - 1 views

www.patsula.com/...ing_theories_full_version.html

presence online learning

shared by Tiffany King on 20 Jun 12 - Cached
  • Gagne also contends that learning tasks for intellectual skills can be organized in a hierarchy according to complexity: stimulus recognition response generation procedure following use of terminology discriminations concept formation rule application problem solving
  • Gagne also contends that learning tasks for intellectual skills can be organized in a hierarchy according to complexity: stimulus recognition response generation procedure following use of terminology discriminations concept formation rule application problem solving
  • Gagne also contends that learning tasks for intellectual skills can be organized in a hierarchy according to complexity: stimulus recognition response generation procedure following use of terminology discriminations concept formation rule application problem solving
  • ...22 more annotations...
  • Gagne also contends that learning tasks for intellectual skills can be organized in a hierarchy according to complexity: stimulus recognition response generation procedure following use of terminology discriminations concept formation rule application problem solving
  • 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)
  • 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)
  • 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)
  • The following tutorial consists of five learning modules. Each module describes a learning theory and how that learning theory can be applied to improving online teaching and training materials. Each module features: a description of a well known learning theory; a practical example of how the theory and related strategies can be applied to a particular instructional objective or web-design problem; and a list of related pedagogical and web-design strategies as researched in the literature. This tutorial has been designed for MDDE 621 students studying in the Masters of Distance Education program at Athabasca University.
  • 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)
  • 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 learn
  • 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)
  • 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
  • Gagne also contends that learning tasks for intellectual skills can be organized in a hierarchy according to complexity: stimulus recognition response generation procedure following use of terminology discriminations concept formation rule application problem solving
  • Gagne also contends that learning tasks for intellectual skills can be organized in a hierarchy according to complexity: stimulus recognition response generation procedure following use of terminology discriminations concept formation rule application problem solving
  • Gagne also contends that learning tasks for intellectual skills can be organized in a hierarchy according to complexity: stimulus recognition response generation procedure following use of terminology discriminations concept formation rule application problem solving
  • Simplify navigation.
  • Create effective menus.
  • Include indexes, table of contents, and search capabilities.
  • Pedagogical Practices and Practical Web-Design Strategies
  • Clearly identify content with appropriate headings and titles.
  • Place most important information on the top-left. Important information should go to the top-left.
  • Web is (Fahy 1999, 181-182): Easy to get lost in (users can get confused bouncing around from one link to the next) Unstructured Non-interactive (although this is changing) Complex (the amount of information on the Web is mind-boggling) Time-consuming (because it is non-linear and invites exploration. NOTE: Research by Thaler [1997, as cited in Fahy 1999, 181] shows that "employees in a 1997 survey reported spending an average of 90 minutes per day visiting sites unrelated to their jobs").
Doris Stockton

JOLT - Journal of Online Learning and Teaching - 0 views

jolt.merlot.org/...keengwe_0610.htm

online learning teaching

shared by Doris Stockton on 21 Jun 13 - Cached
  • The Barriers to Online Teaching and Learning
  • Although instruction provided through the Internet offers a viable alternative to the need for “physical” space, the need for faculty involvement in online learning remains a prevalent issue for those institutions that plan to continue offering instruction at a distance (Matsom, 2006; Nelson & Thompson, 2005; Schifter, 2004). In many institutions, faculty members are expected to participate in online distance education as a part of their regular duties as faculty (Kim & Bonk, 2006). However, many faculty members are hesitant to convert their traditional courses to an online format. This resistance is attributed to a lack of support, assistance, as well as training by institutions of higher education (Allen & Seaman, 2008; Keengwe, Kidd, & Kyei-Blankson, 2009).
  • Nelson and Thompson (2005) cited faculty time, rewards, workload, lack of administrative support, cost, course quality, student contact, and equipment concerns as barriers to online teaching practices. The researchers recommended that program leaders keep abreast of the technology issues; courses integrate more collaboration between instructors and learners; training be provided to faculty to overcome negative dispositions; leaders attempt to incorporate the need for distance education courses in institutions’ missions, and that a reconsideration of tenure and promotion decisions should be examined in an attempt to support faculty workloads.
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  • 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).
  • Doris Stockton on 21 Jun 13
     
    This is the article that I used for response to Kelly's Speak out discussion post.
Tiffany King

Cognitive Load Theory - 0 views

www.southalabama.edu/...cognitive_load_theory.htm

cognitive theory

shared by Tiffany King on 20 Jun 12 - Cached
  • Cognitive Load Theory (CLT) is an instructional theory that starts from the idea that our working memory is limited with respect to the amount of information it can hold, and the number of operations it can perform on that information (Van Gerven et. al., 2003). That means a learner should be encouraged to use his or her limited working memory efficiently, especially when learning a difficult task (Van Gerven et. al., 2003). We need to recognize the role and the limitation of working memory to help develop quality instruction (Cooper, 1998). Thus, we as instructional designers need to find ways to help optimize the working memory. Hence, the key aspect of the theory is the relation between long-term memory and working memory, and how instructional materials interact with this cognitive system (Ayres, 2006).
Doris Stockton

AJET 26(3) Drexler (2010) - The networked student model for construction of personal le... - 0 views

ascilite.org.au/...drexler.html

shared by Doris Stockton on 21 Jun 13 - Cached
  • Personal learning suggests learner autonomy and increased self regulation (Atwell, 2007; Aviram et al., 2008). However, increased responsibility and control on the part of the learner do not necessarily equate to learner motivation (Dede, 1996). Students engaging in networked learning research must be more self-directed. Not only are they navigating a number of web-based applications for the first time, they are also required to take an active role in the learning process by making decisions about how to search, where to search, and why certain content meets a learning objective.
  • Teachers, on the other hand, are challenged to provide an appropriate balance between structure and learner autonomy in order to facilitate self-directed, personalised learning (Beaudoin, 1990; McLoughlin & Lee, 2010).
  • The role of a teacher within a student-centered approach to instruction is that of a facilitator or coach (Wang, 2006). "He or she supports the students in their search and supply of relevant material, coordinates the students' presentations of individual milestones of their projects, moderates discussions, consults in all kinds of problem-solving and seeking for solutions, lectures on topics that are selected in plenary discussions with the students and conforms to the curriculum" (Motschnig-Pitrik & Holzinger, 2002, p. 166).
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  • Figure 1: The Networked Teacher (Couros, 2008)
  • ouros (2008) developed a model of the networked teacher that represents an educator's professional personal learning environment (PLE). A teacher is better equipped to facilitate networked learning if he or she has experienced the construction of such a model first hand. The significant connections in Couros' view of the network include colleagues, popular media, print and digital resources, the local community, blogs, wikis, video conferencing, chat/IRC, social networking services, online communities, social bookmarking, digital photo sharing, and content development communities (Couros, 2008).
  • Networked teacher model
  • Developing a model of the networked student The Networked Student Model adapts Couros' vision for teacher professional development in a format that is applicable to the K-12 student. It includes four primary categories, each with many components evident in the networked teacher version (Figure 2).
  • Figure 2: The Networked Student
  • The networked student follows a constructivist approach to learning. He or she constructs knowledge based on experiences and social interactions (Jonassen et al., 2003). Constructivism encourages "greater participation by students in their appropriation of scholarly knowledge" (Larochelle et al., 1998).
  • Technology supports this appropriation as a collection of tools that promote knowledge construction, an information vehicle for exploring knowledge, an active learning tool, a social medium to promote conversing, and an intellectual partner to facilitate reflection (Jonassen et al., 2003)
  • In a traditional classroom setting, the teacher has primary control over the content. He or she selects or designs the curriculum. Networked learning gives students the ability and the control to connect with subject matter experts in virtually any field.
  • That connection expands to include access to resources and creative artifacts. Computers and mobile devices continue to broaden access to all types of information and learning sources. As quickly as content becomes available, web applications are released to assist in the management of that content
  • The networked student constructs a personal learning environment one node at a time. Once these connections are formed, they must be revisited and built upon to facilitate further learning. The personal learning environment lives beyond time spent in a classroom
  • With so much information to manage, it is increasingly difficult to stay abreast of changes in a given field, much less track implications arising from related fields. Really Simple Syndication (RSS) allows learners to subscribe to changing content and makes tracking changes easier.
  • Ultimately, meaningful learning occurs with knowledge construction, not reproduction; conversation, not reception; articulation, not repetition; collaboration, not competition; and reflection, not prescription (Jonassen et al., 2003).
  • Construction of a personal learning environment does not necessarily facilitate comprehension or deep understanding. Learning potential exists in what the student does with the compilation of content and how it is synthesised. The networked student model is one of inquiry, or the process of "exploring problems, asking questions, making discoveries, achieving new understanding and fulfilling personal curiosity" (National Science Foundation, as quoted by Chang & Wang, 2009, p. 169).
  • Principles of connectivism equate to fundamentals of learning in a networked world. The design of the teacher-facilitated, student-created personal learning environment in this study adheres to constructivist and connectivist principles with the goal of developing a networked student who will take more responsibility for his or her learning while navigating an increasingly complex content base.
  • Nine out of 15 students indicated that time management was the most difficult aspect of the course. Yet, of the fifteen students participating in the project, thirteen were able to manage weekly assignments per the schedule. Two students fell behind and expressed frustration at the amount of work required to catch up. Teacher intervention was required to facilitate their successful completion of the course. They were given a daily list of tasks designed to scaffold the time management aspects of the project. Time management issues were less associated with construction of the personal learning environment and more concerned with the blended format of the delivery. It was an adjustment for students to manage work outside of class even though they enjoyed the freedom of attending a formal class meeting only 3 out of 5 days a week.
  • Achieving the delicate balance between teacher control and student autonomy is an ongoing challenge when facilitating student use of new technologies for self-regulated learning (McLoughlin & Lee, 2010). Motivation, self direction, and technical aptitude are key considerations for implementing a networked student design. The students constructing personal learning environments in this test case were successful in the contemporary issues course.
  • spite of the challenges highlighted above, the Networked Student Model offers a design and framework through which teachers can explore a student-centered, 21st century approach to learning. It further provides a foundation for constructing a personal learning environment with potential to expand as new learning avenues emerge. The student is challenged to synthesise diverse and extensive digital materials, connect to others interacting in respectful and meaningful ways, self-regulate an active approach to learning, and develop an option for life long learning that applies to virtually any curricular area. Once a student has learned how to construct a personal learning environment, he or she is left with a model of learning that extends beyond the classroom walls, one in which the learner assumes full control. Regardless of teacher control, the students' success will depend on how well they have been prepared in the processes that support learning in an ever changing, increasingly networked world.
  • Doris Stockton on 21 Jun 13
     
    I have highlighted many sections that pertain to student centered online learning.
Diane Gusa

Establishing an Online Teaching Presence - 0 views

www.duq.edu/...online-teaching-presence.cfm

presence teaching pedagogy

shared by Diane Gusa on 16 Jul 12 - No Cached
  • the importance of your online teaching presence is that it contributes to online students’ sense of learning and perception of community.  An online teaching presence “is the binding element in cultivating a learning community” (Persico, et al, 2010).  According to Shea, Li & Pickett (2006), “There is a clear connection between perceived teaching presence and students’ sense of learning community.”
  • For an online learning environment, the emphasis shifts from preparing class sessions to preparing learning modules with specific learning goals, reading assignments, brief instructional materials, learning activities, discussion board posting requirements, assessment procedures, etc.   While you design the modules for your course, you should regularly ask: What do I want students to learn in this module? How will students demonstrate their learning of the materials in this module? What assignments or learning activities will support the learning for this module? By asking yourself these questions while designing modules, you will support student learning and will establish your teaching presence in the design of the course.
  • “Skillful facilitation allows students to interact with one another and the instructor at a high level” (Palloff and Prat, 2011).   At the beginning of the course, faculty members can help facilitate discourse through ice breakers that ask students to introduce themselves and find commonalities with other students. 
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  • Peterson and colleagues (2001) suggest, “Summarize the discussion periodically to demonstrate the relation of the discussion to the course content and to point out missing information.”
  • Indicators of direct instruction “include presenting content and questions, focusing the discussion on specific issues, summarizing discussion, confirming understanding, disposing misperceptions, injecting knowledge from diverse sources and responding to technical concerns” (Shea, et al, 2006).
  • A strong online teaching presence makes for a strong online learning experience and a sense of community for your students.
  • Tiffany King on 16 Jul 12
     
    Discusses how to establish teacher presence.
anonymous

Connecting Dots - 5 views

Speaker Annalie Killian, in our module video The learning paradox of ubiquitous connectivity, said that "More time spent online does not necessarily increase learning". Annalie Killian stated that...

started by anonymous on 25 Feb 14 no follow-up yet
anonymous

Connecting Dots - 3 views

Speaker Annalie Killian, in our module video The learning paradox of ubiquitous connectivity, said that “More time spent online does not necessarily increase learning”. Annalie Killian ...

EDU#300

started by anonymous on 16 Mar 14 no follow-up yet
anonymous

Connecting Dots - 3 views

Speaker Annalie Killian, in our module video The learning paradox of ubiquitous connectivity, said that "More time spent online does not necessarily increase learning". Annalie Killian stated that...

EDU#300

started by anonymous on 16 Mar 14 no follow-up yet
Diane Gusa

teachinganlearningatadistance-4.pdf - 0 views

learning.fon.edu.mk/...inganlearningatadistance-4.pdf

open access book

shared by Diane Gusa on 03 Jun 13 - No Cached
  • Diane Gusa on 03 Jun 13
     
    115-121 Classroom Technologies for Online Instruction Chpt 5 Design p. 360 rubric for final Chpt 2 theories
Tiffany King

EBSCOhost: Online Collaborative Learning: Relating Theory to Practice - 0 views

ehis.ebscohost.com.libproxy.canton.edu/...pdfviewer

online collaborative learning theory

shared by Tiffany King on 20 Jun 12 - No Cached
  • Tiffany King on 20 Jun 12
     
    Abstract: Educational institutions have rushed to provide online courses; however, too often schools have discovered the difficulty in transferring effective teaching strategies in the classroom to an online environment. A unique aspect of quality online courses is how they rely heavily on effective collaboration to create a meaningful learning environment. Unfortunately, online instruction is not as simple as replicating the community atmosphere that is found in the traditional brick and mortar classroom. New strategies are demanded for the successful transfer of knowledge utilizing the Web. Investigating the pedagogical strategies of a program that promotes dialogue and collective intellect in a community model could benefit faculty designing courses. We will present a detailed case study using a mixture of quantitative and qualitative methods (including observation, focus groups, transcripts from synchronous and asynchronous discussions, surveys, and interviews) collected over a two-year span to identify perceptions of effective online collaboration and performance. Community formation, support, and sustainability are also explored. Examples are included that not only describe what participants perceive as enabling aspects of the support system but also ways in which educators can enhance program development by learning from other pioneers in this area.
Nicole Frescura

Universal Design of Instruction - 0 views

www.washington.edu/...Universal

instructional design teaching methods universal

shared by Nicole Frescura on 18 Jun 12 - No Cached
  • Nicole Frescura on 18 Jun 12
     
    Creating courses where learning is accessible to all students.
Diane Gusa

Nine Ways to Reduce Cognitive Load in Multimedia Learning - 1 views

edtechnewsletter.wikispaces.umb.edu/...oad+in+Multimedia+learning.pdf

multimedia learning cognitive load module 2

shared by Diane Gusa on 22 Jun 12 - No Cached
  • Diane Gusa on 22 Jun 12
     
    First, we propose a theory of multimedia learning based on the assumptions that humans possess separate systems for processing pictorial and verbal material (dual-channel assumption), each channel is limited in the amount of material that can be processed at one time (limited-capacity assumption), and meaningful learning involves cognitive processing including building connections between pictorial and verbal representations (active-processing assumption). Second, based on the cognitive theory of multimedia learning, we examine the concept of cognitive overload in which the learner's intended cognitive processing exceeds the learner's available cognitive capacity. Third, we examine five overload scenarios. For each overload scenario, we offer one or two theory-based suggestions for reducing cognitive load, and we summarize our research results aimed at testing the effectiveness of each suggestion. Overall, our analysis shows that cognitive load is a central consideration in the design of multimedia instruction.
Diane Gusa

Cognitive Load Theory - 0 views

www.instructionaldesign.org/...cognitive-load.html

theory cognitiveload video exercise module 2

shared by Diane Gusa on 30 Jun 12 - No Cached
  • Learning requires a change in the schematic structures of long term memory and is demonstrated by performance that progresses from clumsy, error-prone, slow and difficult to smooth and effortless. The change in performance occurs because as the learner becomes increasingly familiar with the material, the cognitive characteristics associated with the material are altered so that it can be handled more efficiently by working memory
  • information contained in instructional material must first be processed by working memory
  • Specific recommendations relative to the design of instructional material include: Change problem solving methods to avoid means-ends approaches that impose a heavy working memory load, by using goal-free problems or worked examples. Eliminate the working memory load associated with having to mentally integrate several sources of information by physically integrating those sources of information. Eliminate the working memory load associated with unnecessarily processing repetitive information by reducing redundancy. Increase working memory capacity by using auditory as well as visual information under conditions where both sources of information are essential (i.e. non-redundant) to understanding.
Tiffany King

Formative and Summative Assessment in the Classroom - 0 views

www.amle.org/...default.aspx

assessment formative summative

shared by Tiffany King on 20 Jul 12 - No Cached
  • nother distinction that underpins formative assessment is student involvement. If students are not involved in the assessment process, formative assessment is not practiced or implemented to its full effectiveness. Students need to be involved both as assessors of their own learning and as resources to other students. There are numerous strategies teachers can implement to engage students. In fact, research shows that the involvement in and ownership of their work increases students' motivation to learn. This does not mean the absence of teacher involvement. To the contrary, teachers are critical in identifying learning goals, setting clear criteria for success, and designing assessment tasks that provide evidence of student learning.
  • Formative Assessment is part of the instructional process.
  • it can only help in evaluating certain aspects of the learning process.
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  • Summative assessments happen too far down the learning path to provide information at the classroom level and to make instructional adjustments and interventions during the learning process.
cassandra siebold

JOTS v32n2 - The Pedagogy of Technology Integration - 3 views

scholar.lib.vt.edu/...okojie.html

technology pedagogy teaching

shared by cassandra siebold on 26 Feb 14 - No Cached
  • Using technology to enhance the educational process involves more than just learning how to use specific piece of hardware and software. It requires an understanding of pedagogical principles that are specific to the use of technology in an instructional settings…Pedagogy-based training begins by helping teachers understand the role of learning theory in the design and function of class activities and in the selection and use of instructional technologies. (pp. 2 and 6)
  • In a broad sense, technology integration can be described as a process of using existing tools, equipment and materials, including the use of electronic media, for the purpose of enhancing learning
  • When you go to the hardware store to buy a drill, you don’t actually want a drill, you want a hole, they don’t sell holes at the hardware store, but they do sell drills, which are the technology used to make holes. We must not lose sight that technology for the most part is a tool and it should be used in applications which address educational concerns. (p. 87)
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