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Fatima Anwar

Best Practices In Online Courses In Higher Education Study - 0 views

schoolcolleged2l.blogspot.com/...urses-in-higher-education.html

best practices higher education

shared by Fatima Anwar on 17 Mar 14 - No Cached
  • Fatima Anwar on 17 Mar 14
     
    Article about best practices in online courses in higher education study methods may be organized into 3 major elements of the educational process
seo vijaya

IGNOU Recruitment 2013 Notification For Professor, Asst Professor Govt jobs New Delhi - 0 views

jobsind.in/-professor-govt-jobs-new-delhi

ignou notification 2013 recruitment latest government jobs govt university vacancies in chennai

shared by seo vijaya on 27 Jul 13 - No Cached
  • seo vijaya on 27 Jul 13
     
    Welcome to jobsind.in. IGNOU notification 2013 for latest government jobs 2013, In IGNOU university available posts are One hundred twenty six for IGNOU recruitment 2013 in New Delhi. Educational Qualification required for various posts may get from the IGNOU university address given bellow. Job Location is New Delhi for latest government jobs 2013 in IGNOU notification 2013.
shoaibhashmi

Hide My IP 6 Crack Serial plus License Keygen full download - 0 views

www.djfull.net/ip-6-crack-serial-plus-license

hide my ip 6 crack download key generator license patch serial number 6.0 6.0.352 6.0.370 address free online

shared by shoaibhashmi on 02 Oct 15 - No Cached
  • shoaibhashmi on 02 Oct 15
     
    Hide My IP 6 Crack Serial is the best privacy software that can be secure your personal information and keep your accounts ID, s personal. It can also hide
Nigel Coutts

Is STEM the key? (Part Two) - 10 views

thelearnersway.net/...is-stem-the-key-part-two

education technology learning science

shared by Nigel Coutts on 17 May 15 - No Cached
oompfh liked it
  • Nigel Coutts on 17 May 15
     
    The call for improved STEM programmes has gained momentum in the past two weeks with an address to the National Press Club by Catherine Livingstone AO of the Business Council of Australia and an occasional paper released by the Office of the Chief Scientist.
Carlos Quintero

Innovate: Future Learning Landscapes: Transforming Pedagogy through Social Software - 0 views

innovateonline.info/index.php

article artículo education innovate learning pedagogia2.0 pedagogy teaching

shared by Carlos Quintero on 11 Sep 08 - Cached
  • Web 2.0 has inspired intense and growing interest, particularly as wikis, weblogs (blogs), really simple syndication (RSS) feeds, social networking sites, tag-based folksonomies, and peer-to-peer media-sharing applications have gained traction in all sectors of the education industry (Allen 2004; Alexander 2006)
  • Web 2.0 allows customization, personalization, and rich opportunities for networking and collaboration, all of which offer considerable potential for addressing the needs of today's diverse student body (Bryant 2006).
  • In contrast to earlier e-learning approaches that simply replicated traditional models, the Web 2.0 movement with its associated array of social software tools offers opportunities to move away from the last century's highly centralized, industrial model of learning and toward individual learner empowerment through designs that focus on collaborative, networked interaction (Rogers et al. 2007; Sims 2006; Sheely 2006)
  • ...19 more annotations...
  • learning management systems (Exhibit 1).
  • The reality, however, is that today's students demand greater control of their own learning and the inclusion of technologies in ways that meet their needs and preferences (Prensky 2005)
  • Tools like blogs, wikis, media-sharing applications, and social networking sites can support and encourage informal conversation, dialogue, collaborative content generation, and knowledge sharing, giving learners access to a wide range of ideas and representations. Used appropriately, they promise to make truly learner-centered education a reality by promoting learner agency, autonomy, and engagement in social networks that straddle multiple real and virtual communities by reaching across physical, geographic, institutional, and organizational boundaries.
  • "I have always imagined the information space as something to which everyone has immediate and intuitive access, and not just to browse, but to create” (2000, 216). Social software tools make it easy to contribute ideas and content, placing the power of media creation and distribution into the hands of "the people formerly known as the audience" (Rosen 2006).
  • the most promising settings for a pedagogy that capitalizes on the capabilities of these tools are fully online or blended so that students can engage with peers, instructors, and the community in creating and sharing ideas. In this model, some learners engage in creative authorship, producing and manipulating digital images and video clips, tagging them with chosen keywords, and making this content available to peers worldwide through Flickr, MySpace, and YouTube
  • Student-centered tasks designed by constructivist teachers reach toward this ideal, but they too often lack the dimension of real-world interactivity and community engagement that social software can contribute.
  • Pedagogy 2.0: Teaching and Learning for the Knowledge Age In striving to achieve these goals, educators need to revisit their conceptualization of teaching and learning (Exhibit 2).
  • Pedagogy 2.0: Teaching and Learning for the Knowledge Age In striving to achieve these goals, educators need to revisit their conceptualization of teaching and learning
  • Pedagogy 2.0 is defined by: Content: Microunits that augment thinking and cognition by offering diverse perspectives and representations to learners and learner-generated resources that accrue from students creating, sharing, and revising ideas; Curriculum: Syllabi that are not fixed but dynamic, open to negotiation and learner input, consisting of bite-sized modules that are interdisciplinary in focus and that blend formal and informal learning;Communication: Open, peer-to-peer, multifaceted communication using multiple media types to achieve relevance and clarity;Process: Situated, reflective, integrated thinking processes that are iterative, dynamic, and performance and inquiry based;Resources: Multiple informal and formal sources that are rich in media and global in reach;Scaffolds: Support for students from a network of peers, teachers, experts, and communities; andLearning tasks: Authentic, personalized, learner-driven and learner-designed, experiential tasks that enable learners to create content.
  • Instructors implementing Pedagogy 2.0 principles will need to work collaboratively with learners to review, edit, and apply quality assurance mechanisms to student work while also drawing on input from the wider community outside the classroom or institution (making use of the "wisdom of crowds” [Surowiecki 2004]).
  • A small portion of student performance content—if it is new knowledge—will be useful to keep. Most of the student performance content will be generated, then used, and will become stored in places that will never again see the light of day. Yet . . . it is still important to understand that the role of this student content in learning is critical.
  • This understanding of student-generated content is also consistent with the constructivist view that acknowledges the learner as the chief architect of knowledge building. From this perspective, learners build or negotiate meaning for a concept by being exposed to, analyzing, and critiquing multiple perspectives and by interpreting these perspectives in one or more observed or experienced contexts
  • This understanding of student-generated content is also consistent with the constructivist view that acknowledges the learner as the chief architect of knowledge building. From this perspective, learners build or negotiate meaning for a concept by being exposed to, analyzing, and critiquing multiple perspectives and by interpreting these perspectives in one or more observed or experienced contexts. In so doing, learners generate their own personal rules and knowledge structures, using them to make sense of their experiences and refining them through interaction and dialogue with others.
  • Other divides are evident. For example, the social networking site Facebook is now the most heavily trafficked Web site in the United States with over 8 million university students connected across academic communities and institutions worldwide. The majority of Facebook participants are students, and teachers may not feel welcome in these communities. Moreover, recent research has shown that many students perceive teaching staff who use Facebook as lacking credibility as they may present different self-images online than they do in face-to-face situations (Mazer, Murphy, and Simonds 2007). Further, students may perceive instructors' attempts to coopt such social technologies for educational purposes as intrusions into their space. Innovative teachers who wish to adopt social software tools must do so with these attitudes in mind.
  • "students want to be able to take content from other people. They want to mix it, in new creative ways—to produce it, to publish it, and to distribute it"
  • Furthermore, although the advent of Web 2.0 and the open-content movement significantly increase the volume of information available to students, many higher education students lack the competencies necessary to navigate and use the overabundance of information available, including the skills required to locate quality sources and assess them for objectivity, reliability, and currency
  • In combination with appropriate learning strategies, Pedagogy 2.0 can assist students in developing such critical thinking and metacognitive skills (Sener 2007; McLoughlin, Lee, and Chan 2006).
  • We envision that social technologies coupled with a paradigm of learning focused on knowledge creation and community participation offer the potential for radical and transformational shifts in teaching and learning practices, allowing learners to access peers, experts, and the wider community in ways that enable reflective, self-directed learning.
  • . By capitalizing on personalization, participation, and content creation, existing and future Pedagogy 2.0 practices can result in educational experiences that are productive, engaging, and community based and that extend the learning landscape far beyond the boundaries of classrooms and educational institutions.
  • Carlos Quintero on 11 Sep 08
     
    About pedagogic 2.0
  • Carlos Quintero on 11 Sep 08
     
    Future Learning Landscapes: Transforming Pedagogy through Social Software Catherine McLoughlin and Mark J. W. Lee
Steve Ransom

That's Not Cool - 5 views

www.thatsnotcool.com

digitalcitizenship curriculum discussion netiquette

shared by Steve Ransom on 31 Jan 09 - Cached
  • Judy Robison on 31 Jan 09
     
    This is a really well done site that addresses text harassment and use of technology in violent/controlling relationships. An incredibly excellent approach recommended by Nancy Willard
  • Steve Ransom on 13 Dec 09
     
    Great site full of activities and media to promote/spark discussion.
kathy dounelis

Highly recommend Diigo Educator Account - Classroom 2.0 - 1 views

www.classroom20.com/...group-bookmarking

diigo education review

shared by kathy dounelis on 13 Jan 09 - Cached
  • I tried out Diigo educator and was REALLY impressed. This let me very quickly (and with no email addresses needed) set up accounts for 30 students. I then created a group for all 3 classes to use and added all the students to the group. In this case, since I only have one more day with the kids and am not sure if they'll be using Diigo after this, I just used the 30 accounts for multiple classes, but if this were for my actual students, I would have created an account for each student. Anyway, once all the students were added to the group, I just instructed them to make sure to share every bookmark for this project with the group. All of the students will then be able to view all of the bookmarks. Again, we couldn't install even the diigolet, but saving right from Diigo worked fine for our purposes. They used the same technique of tagging with last name, class hour, and other appropriate tags. I taught both of these methods in a 45 minute class period and the actual explanation of the bookmarking technique took only 7-10 min. of each class period. The kids (7th graders) picked up on it EXTREMELY fast.
  • for long term use and for individual projects I strongly recommend using Diigo educator, especially since I use Diigo so heavily in my personal and professional web research.
  • I highly recommend Diigo Educator to any teacher!
  • ...1 more annotation...
  • then created a group for all 3 classes to use and added all the students to the group. In this case, since I only have
James OReilly

Versatile, Immersive, Creative and Dynamic Virtual 3-D Healthcare Learning Environments... - 0 views

www.jmir.org/e26

shared by James OReilly on 13 Dec 08 - Cached
  • Virtual 3-D Healthcare Learning Environments
  • The author provides a critical overview of three-dimensional (3-D) virtual worlds and “serious gaming” that are currently being developed and used in healthcare professional education and medicine.
  • Roger’s Diffusion of Innovations Theory
  • ...32 more annotations...
  • Siemens’ Connectivism Theory
  • accelerating momentum
  • there are some fundamental questions which remain unanswered.
  • it is beneficial to address while the race to adopt and implement highly engaging Web 3-D virtual worlds is watched in healthcare professional education
  • Therefore, Roger’s Diffusion of Innovations Theory [5] and Siemens’ Connectivism Theory [6] for today’s learners will serve as theoretical frameworks for this paper.
  • A 3-D virtual world, also known as a Massively Multiplayer Virtual World (MMVW), is an example of a Web 2.0/Web 3-D dynamic computer-based application.
  • applications that enable social publishing, such as blogs and wikis
  • the most popular virtual world used by the general public is Linden Lab’s Second Life (SL)
  • Who would imagine attending medical school in a virtual world?
  • US agencies, such as the Centers for Disease Control and the National Institutes of Health conduct meetings in SL to discuss the educational potential of SL
  • virtual medical universities exist all over the world
  • The term “avatar” is an old Sanskrit word portraying a deity which takes on a human shape
  • Trauma Center
  • Virtual worlds are currently being used as educational spaces [1] and continue to grow in popularity on campuses and businesses worldwide. Furthermore, access to versions of virtual worlds on the Web, such as “Croquet,” “Uni-Verse,” and “Multiverse” are predicted within two to three years to be mainstream in education
  • there are reported advantages to having students engage in these emerging technologies
  • By allowing students time to interact with other avatars (eg, patients, staff members, and other healthcare professionals) in a safe, simulated environment, a decrease in student anxiety, an increase in competency in learning a new skill, and encouragement to cooperate and collaborate, as well as resolve conflicts, is possible.
  • High quality 3-D entertainment that is freely accessible via Web browsing facilitates engagement opportunities with individuals or groups of people in an authentic manner that illustrates collective intelligence
  • Advanced Learning and Immersive Virtual Environment (ALIVE) at the University of Southern Queensland
  • health information island
  • Problem-based learning groups enrolled in a clinical management course at Coventry University meet in SL and are employed to build learning facilities for the next semester of SL students. This management course teaches students to manage healthcare facilities and is reported to be the first healthcare-related class to use SL as a learning environment.
  • Another example of a medical school using SL is St. George’s Medical School in London.
  • Stanford University medical school
  • Another virtual world project developed by staff at the Imperial College in London, in collaboration with the National Physical Lab in the United Kingdom, is the Second Health Project
  • Mesko [35] presents the top 10 virtual medical sites in SL.
  • The development and use of 3-D virtual worlds in nursing education is increasing.
  • Some educators may balk at adopting this technology because there is a learning curve associated with the use of 3-D virtual worlds.
  • Let’s have fun, explore these fascinating worlds and games, and network with others while respecting diverse ways of life-long learning and current researchers’ findings.
  • there is an underlying push in higher education to adopt these collaborative tools and shift the paradigm from a traditional Socratic method of education to one possessing a more active and interactive nature
  • One may view online virtual worlds and serious gaming as a threat to the adoption and purchase of high-fidelity computerized patient-simulation mannequins that are currently purchased for healthcare-profession training. For example, nurses may login into SL and learn Advanced Cardiac Life Support at their convenience, and it costs virtually nothing for the nurse and perhaps a nominal fee for the developer.
  • The educational opportunity in SL may not be a replacement for the doctor- or nurse-patient interaction or relationship, but SL may serve as an adjunct or pre- or post-learning tool.
  • one recalls when critics questioned the validity and reliability of the stethoscope invented by Laennec in 1816 and how today it is second nature to use this assessment tool.
  • 2006 health fair
anonymous

Innovative Student group management software- GroupTable.com - 74 views

Dear Steve Hargadon, How are you doing i hope that you are doing fine. First of all i will like to introduce my clear to you. His name is Kene Zolo, He's a Refugee in Nigeria. Himself and his Moth...

GroupTable group projects study groups management

started by David Brim on 29 Oct 08 1 follow-up, last by anonymous on 15 Nov 08
Tero Toivanen

eLearn: Feature Article - 0 views

elearnmag.org/subpage.cfm

semanticweb web3.0 feature e-learning web 2.0 Roger C. Schank

shared by Tero Toivanen on 19 Apr 09 - Cached
  • The goal of the Semantic Web is to provide the capacity for computers to understand Web content that exists on systems and servers across the Internet, ultimately adding value to the content and opening rich new data, information, and knowledge frontiers.
  • In essence, the Semantic Web is a collection of standards, data structures, and software that make the online experience more detailed, intelligent, and in some cases, more intense.
  • In addition to the standards that govern the data and its structure, semantic technologies seek to define the framework and method of communication between systems.
  • ...6 more annotations...
  • This is a key component of the Semantic Web because IPAs will make the intelligent connections between content, mapping relationships, and alerting users and systems to content that previously would not have been identified, or if recognized, would have been discovered accidentally by searching or user recommendation. The Web will essentially be building correlations between defend types of learning interaction regardless of whether the user is online.
  • The potential of the Semantic Web could actually revolutionize the learning experience. Roger Schank, who helped found the Learning Center at Carnegie Mellon University, designed a new methodology that eliminates classes, tests, lectures, and even programs themselves.
  • Schank argues the most effective way to teach new skills is to put learners in the kinds of situations in which they need to use those skills, and to provide mentors who help learners as and when they need it. Effective learners come to understand when, why, and how they should use skills and knowledge. They receive key just-in-time lessons, in such a way that learners will most likely remember the information later when they need it. In a Semantic Web context, learning would be continuously invigorated with the obvious benefits being an increase in the quality of content and the sophistication of student interactions.
  • The prospect of applying semantic concepts to learning administration as well as direct pedagogy could offer benefits to the institution and the learner.
  • educational organizations should keep data secure while addressing issues around open access, though in principle the way would be clear to integrate systems across intranets and extranets.
  • Government agencies and lawmakers need to engender the broad necessity and the vision as well as provide adequate support and development mechanisms for those institutions and innovators wishing to further semantic applications within e-learning. Finally, and perhaps most importantly, the learners and tutors must embrace the new opportunities and pedagogical frontiers that a web of meaning could ultimately deliver.
  • Tero Toivanen on 19 Apr 09
     
    The goal of the Semantic Web is to provide the capacity for computers to understand Web content that exists on systems and servers across the Internet, ultimately adding value to the content and opening rich new data, information, and knowledge frontiers.
Dennis OConnor

e-Learning Online: Website Investigator: See you at NECC 2009! - 0 views

wiredinstructor2.blogspot.com/...estigator-see-you-at-necc.html

information fluency information literacy 21cif website_evaluation information forensics

shared by Dennis OConnor on 06 Jun 09 - Cached
  • Website Investigator: Information Forensics Goes to School
  • The purpose of this session is to provide participants with an understanding of efficient methods for evaluating online information and to demonstrate effective ways to teach these information fluency skills in classrooms.The new generation of NETS standards for students (ISTE, 2007), is based on the premise that efficacy and productivity depends on students’ abilities to conduct research and manage digital information fluently. An essential skill is the ability to evaluate information from a variety of sources and media.This session directly addresses this information fluency standard by helping participants…1. Understand the role of investigation (information forensics) in evaluating information:• Two types of searching: how investigation differs from speculation;• Determining when investigative searching is necessary and when it is not;• Effective means of finding critical information with limited clues;• Using specialized search engines and browsing techniques to track down information;• Analyzing results to determine credibility of the source and content.2. Observe effective methods for helping students exercise speculative search skills:• Off-line 'readiness' activities;• Group and individual Search Challenges;• Interactive tutorial games;• Think-aloud searches;• Evaluation reporting;• Group discussion about credibility.
Steve Ransom

Leaving 'Friendprints': How Online Social Networks Are Redefining Privacy and Personal ... - 0 views

knowledge.wharton.upenn.edu/article.cfm

digitalfootprint digitalcitizenship privacy advertising socialnetworking socialnetwork

shared by Steve Ransom on 12 Jun 09 - Cached
  • "Our kids today will give everything [in terms of personal information] away, but it's not at all clear how this will shake out in the long run,"
    • Steve Ransom
      Steve Ransom on 12 Jun 09
       
      A marketer's gold mine, among other things.
  • And what about the person you don't really know who wants to be your friend because you have some friends in common? According to Hoffman, that new friend may just be mining your social circle for information. As networks grow and more friends of friends (and their friends) are accepted by users, it's unclear who can be trusted.
    • Steve Ransom
      Steve Ransom on 12 Jun 09
       
      Hmmmm... this has occurred to me before, but I'm not sure how real it is our how paranoid we should be. However, we do need to take a look at our followers' digital footprints (blogs, tweets, posts, pages,...) if suspect.
  • Hoffman illustrated how social connections are made online and the ease with which a stranger can become part of a network.
  • ...5 more annotations...
  • When a business contact from the LinkedIn world wants to become your friend on Facebook, do you accept the invitation, giving them access to the photos on your Facebook profile from last summer's rowdy beach party?
  • Third-party applications, he argued, can take that data outside of the friendly confines of a social networking site and combine it with data from other sources to piece together enough information to steal a person's identity.
    • Steve Ransom
      Steve Ransom on 12 Jun 09
       
      That's always been my feeling about 3rd party apps. I don't use them for the most part.
  • According to Acquisti, people are more likely to divulge key personal information -- their photo, birthday, hometown, address and phone number -- on social networking sites than they would on other web sites
  • In one study, Acquisti found that that people will divulge information when they see others doing so. That tendency, he believes, may explain why so many people are willing to dish out personal information on the networks.
  • Holy Grail for marketers is to track consumers and their friends -- and what they say about a product -- via social networks. "People are more willing to divulge information for social purposes, and the lead users are 18 to 25 years old," Bradlow notes. "The social norms around privacy aren't going to be what they were before."
  • Steve Ransom on 12 Jun 09
     
    The information provides opportunities not only for legitimate business purposes, but also for the nefarious aims of identity thieves and other predators, according to faculty at Wharton and elsewhere.
Martin Burrett

Math Interactives - 6 views

www.learnalberta.ca/...index.html

addition subtraction multiplication division fraction patterns decimals measurement geometry statistics maths

shared by Martin Burrett on 30 Aug 09 - Cached
  • Kathleen N on 30 Aug 09
     
    This multimedia resource includes interactive math activities, print activities, learning strategies, and videos that illustrate how math is used in everyday life. The resource addresses the following mathematics topics: Fractions; Integers; Percentages; Rate/Ratio/Proportion; Square Roots; Exponents; Patterns; Algebra; Linear Equations; Polynomials; Angles; Circles; Surface Area and Volume; Area and Perimeter; Triangles; Pythagoras; Trigonometry; Similarity and Congruence; Transformations; Shape Classification; Data Display and Graphs; Central Tendency and Distribution; and Probability.
  • Martin Burrett on 06 Aug 11
     
    A great general maths site with lots of tutorials, activities and games which will help your students at school and at home. http://ictmagic.wikispaces.com/Maths
Maggie Verster

Fresh research showing the damage of filtering 'real world' technology - 0 views

edu.blogs.com/...ing-real-world-technology.html

filtering firewalls education research school2.0 AUP policies

shared by Maggie Verster on 15 Sep 09 - Cached
    • Maggie Verster
      Maggie Verster on 15 Sep 09
       
      I have been advocating for our school technology admins to address firewalling and filtering...this is great!
Philippe Scheimann

A Vision of Students Today (& What Teachers Must Do) | Britannica Blog - 0 views

www.britannica.com/...ts-today-what-teachers-must-do

learning web2.0 school

shared by Philippe Scheimann on 01 Jul 09 - Cached
  • It has taken years of acclimatizing our youth to stale artificial environments, piles of propaganda convincing them that what goes on inside these environments is of immense importance, and a steady hand of discipline should they ever start to question it.
    • Russell D. Jones
      Russell D. Jones on 01 Jul 09
       
      There is a huge investment in resources, time, and tradition from the teacher, the instutions, the society, and--importantly--the students. Students have invested much more time (proportional to their short lives) in learning how to be skillful at the education game. Many don't like teachers changing the rules of the game just when they've become proficient at it.
  • Last spring I asked my students how many of them did not like school. Over half of them rose their hands. When I asked how many of them did not like learning, no hands were raised. I have tried this with faculty and get similar results. Last year’s U.S. Professor of the Year, Chris Sorensen, began his acceptance speech by announcing, “I hate school.” The crowd, made up largely of other outstanding faculty, overwhelmingly agreed. And yet he went on to speak with passionate conviction about his love of learning and the desire to spread that love. And there’s the rub. We love learning. We hate school. What’s worse is that many of us hate school because we love learning.
    • Russell D. Jones
      Russell D. Jones on 01 Jul 09
       
      So we (teachers and students) are willing to endure a little (or a lot) of uncomfortableness in order to pursue that love of learning.
  • They tell us, first of all, that despite appearances, our classrooms have been fundamentally changed.
  • ...6 more annotations...
  • While most of our classrooms were built under the assumption that information is scarce and hard to find, nearly the entire body of human knowledge now flows through and around these rooms in one form or another, ready to be accessed by laptops, cellphones, and iPods. Classrooms built to re-enforce the top-down authoritative knowledge of the teacher are now enveloped by a cloud of ubiquitous digital information where knowledge is made, not found, and authority is continuously negotiated through discussion and participation. In short, they tell us that our walls no longer mark the boundaries of our classrooms.
  • And that’s what has been wrong all along. Some time ago we started taking our walls too seriously – not just the walls of our classrooms, but also the metaphorical walls that we have constructed around our “subjects,” “disciplines,” and “courses.” McLuhan’s statement about the bewildered child confronting “the education establishment where information is scarce but ordered and structured by fragmented, classified patterns, subjects, and schedules” still holds true in most classrooms today. The walls have become so prominent that they are even reflected in our language, so that today there is something called “the real world” which is foreign and set apart from our schools. When somebody asks a question that seems irrelevant to this real world, we say that it is “merely academic.”
  • We can use them in ways that empower and engage students in real world problems and activities, leveraging the enormous potentials of the digital media environment that now surrounds us. In the process, we allow students to develop much-needed skills in navigating and harnessing this new media environment, including the wisdom to know when to turn it off. When students are engaged in projects that are meaningful and important to them, and that make them feel meaningful and important, they will enthusiastically turn off their cellphones and laptops to grapple with the most difficult texts and take on the most rigorous tasks.
  • At the root of your question is a much more interesting observation that many of the styles of self-directed learning now enabled through technology are in conflict with the traditional teacher-student relationship. I don’t think the answer is to annihilate that relationship, but to rethink it.
  • Personally, I increasingly position myself as the manager of a learning environment in which I also take part in the learning. This can only happen by addressing real and relevant problems and questions for which I do not know the answers. That’s the fun of it. We become collaborators, with me exploring the world right along with my students.
  • our walls, the particular architectonics of the disciplines we work within, provide students with the conversational, narrative, cognitive, epistemological, methodological, ontological, the –ogical means for converting mere information into knowledge.
  • Philippe Scheimann on 28 Jul 09
     
    useful article , I need to finish it and look at this 'famous clip' that had 1 million viewers
Samantha Morra

The Edjurist - Information on School and Educational Law - Blog - 0 views

www.edjurist.com

law education

shared by Samantha Morra on 09 Jun 09 - Cached
  • Samantha Morra on 09 Jun 09
     
    Interesting resource for understanding how new technologies in schools are addressed in the courts.
anonymous

Critical Issue: Using Technology to Improve Student Achievement - 0 views

www.ncrel.org/...te800.htm

shared by anonymous on 23 Feb 10 - Cached
  • Technologies available in classrooms today range from simple tool-based applications (such as word processors) to online repositories of scientific data and primary historical documents, to handheld computers, closed-circuit television channels, and two-way distance learning classrooms. Even the cell phones that many students now carry with them can be used to learn (Prensky, 2005).
  • Bruce and Levin (1997), for example, look at ways in which the tools, techniques, and applications of technology can support integrated, inquiry-based learning to "engage children in exploring, thinking, reading, writing, researching, inventing, problem-solving, and experiencing the world." They developed the idea of technology as media with four different focuses: media for inquiry (such as data modeling, spreadsheets, access to online databases, access to online observatories and microscopes, and hypertext), media for communication (such as word processing, e-mail, synchronous conferencing, graphics software, simulations, and tutorials), media for construction (such as robotics, computer-aided design, and control systems), and media for expression (such as interactive video, animation software, and music composition). In a review of existing evidence of technology's impact on learning, Marshall (2002) found strong evidence that educational technology "complements what a great teacher does naturally," extending their reach and broadening their students' experience beyond the classroom. "With ever-expanding content and technology choices, from video to multimedia to the Internet," Marshall suggests "there's an unprecedented need to understand the recipe for success, which involves the learner, the teacher, the content, and the environment in which technology is used."
  • In examining large-scale state and national studies, as well as some innovative smaller studies on newer educational technologies, Schacter (1999) found that students with access to any of a number of technologies (such as computer assisted instruction, integrated learning systems, simulations and software that teaches higher order thinking, collaborative networked technologies, or design and programming technologies) show positive gains in achievement on researcher constructed tests, standardized tests, and national tests.
  • ...4 more annotations...
  • Boster, Meyer, Roberto, & Inge (2002) examined the integration of standards-based video clips into lessons developed by classroom teachers and found increases student achievement. The study of more than 1,400 elementary and middle school students in three Virginia school districts showed an average increase in learning for students exposed to the video clip application compared to students who received traditional instruction alone.
  • Wenglinsky (1998) noted that for fourth- and eighth-graders technology has "positive benefits" on achievement as measured in NAEP's mathematics test. Interestingly, Wenglinsky found that using computers to teach low order thinking skills, such as drill and practice, had a negative impact on academic achievement, while using computers to solve simulations saw their students' math scores increase significantly. Hiebert (1999) raised a similar point. When students over-practice procedures before they understand them, they have more difficulty making sense of them later; however, they can learn new concepts and skills while they are solving problems. In a study that examined relationship between computer use and students' science achievement based on data from a standardized assessment, Papanastasiou, Zemblyas, & Vrasidas (2003) found it is not the computer use itself that has a positive or negative effect on achievement of students, but the way in which computers are used.
  • Another factor influencing the impact of technology on student achievement is that changes in classroom technologies correlate to changes in other educational factors as well. Originally the determination of student achievement was based on traditional methods of social scientific investigation: it asked whether there was a specific, causal relationship between one thing—technology—and another—student achievement. Because schools are complex social environments, however, it is impossible to change just one thing at a time (Glennan & Melmed, 1996; Hawkins, Panush, & Spielvogel, 1996; Newman, 1990). If a new technology is introduced into a classroom, other things also change. For example, teachers' perceptions of their students' capabilities can shift dramatically when technology is integrated into the classroom (Honey, Chang, Light, Moeller, in press). Also, teachers frequently find themselves acting more as coaches and less as lecturers (Henriquez & Riconscente, 1998). Another example is that use of technology tends to foster collaboration among students, which in turn may have a positive effect on student achievement (Tinzmann, 1998). Because the technology becomes part of a complex network of changes, its impact cannot be reduced to a simple cause-and-effect model that would provide a definitive answer to how it has improved student achievement.
  • When new technologies are adopted, learning how to use the technology may take precedence over learning through the technology. "The technology learning curve tends to eclipse content learning temporarily; both kids and teachers seem to orient to technology until they become comfortable," note Goldman, Cole, and Syer (1999). Effective content integration takes time, and new technologies may have glitches. As a result, "teachers' first technology projects generate excitement but often little content learning. Often it takes a few years until teachers can use technology effectively in core subject areas" (Goldman, Cole, & Syer, 1999). Educators may find impediments to evaluating the impact of technology. Such impediments include lack of measures to assess higher-order thinking skills, difficulty in separating technology from the entire instructional process, and the outdating of technologies used by the school. To address these impediments, educators may need to develop new strategies for student assessment, ensure that all aspects of the instructional process—including technology, instructional design, content, teaching strategies, and classroom environment—are conducive to student learning, and conduct ongoing evaluation studies to determine the effectiveness of learning with technology (Kosakowski, 1998).
Kathy Howerton

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