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mbarek Akaddar

What is Blended Learning? - Web Learning @ Penn State - 24 views

weblearning.psu.edu/...what_is_blended_learning

shared by mbarek Akaddar on 19 Oct 10 - Cached
  • mbarek Akaddar on 19 Oct 10
     
    What is Blended Learning?
Dan Sherman

MATH PRACTICE AND LEARNING PROGRAM - FREE FOR TEACHERS - 0 views

TenMarks is the best math practice and learning program for grades 3-High School and as of today, it's FREE for teachers to use - in class or for their students to use at home. The TenMarks approa...

education resources technology web2.0 tools learning teaching

started by Dan Sherman on 16 Nov 10 no follow-up yet
Ted Curran

[Must Read!] Advice for Small Schools on the LMS Selection Process | e-Literate - 0 views

mfeldstein.com/s-on-the-lms-selection-process

shared by Ted Curran on 22 Nov 10 - Cached
  • Migration is inevitable:
  • Migration can be an opportunity:
  • All of these systems are pretty good: It’s easy to get worried about making a “wrong” decision and picking the “inferior” product. The truth of the matter is that, given the needs of your institution (both present and foreseeable future), any of the major systems available in the US that I have some familiarity with (ANGEL, Blackboard, Desire2Learn, Moodle, and Sakai) will provide you with adequate functionality.
  • ...14 more annotations...
  • Accept the possibility that you may have Stockholm Syndrome:
  • If you are an LMS support person, then it is likely that you are too close to the day-to-day operations to have good perspective on all aspects of how well your current system is meeting your school’s needs. Make sure you get input from people with a broad range of experiences, roles, and perspectives.
  • All of these systems are pretty bad:
  • all of these systems will probably fare pretty well. But part of that is because our expectations are low. The state of the art in LMS design is frankly not great.
  • Having a system with 39,000 seldom-used features that require a course to learn how to use is not as valuable to you as having a system with 39 features that most people will find useful and can figure out how to use on their own.
  • You may not be a good judge of usability:
  • a system seems easy to use once you know how to use it.
  • Your current faculty LMS heroes may be the worst judges of usability: There is nobody on your campus more likely to have Stockholm Syndrome than the faculty member who taught her first online class using your current LMS, has never used anything different, and has devoted literally hundreds of hours to optimising her course—squeezing every ounce of value out your current system by exploiting every weird little feature and even figuring out how to turn a couple of a couple of bugs to her advantage. There are ways in which her perspective will be extremely valuable to you (which I’ll get to shortly), but judging usability is not one of them.
  • Somebody who has taught using multiple LMS’s could be a good judge of usability: Faculty members who have taught using 2 or 3 (or more) LMS’s generally have some sense of what differences between platforms really matter and what differences don’t in a practical sense.
  • The quality of the support vendor is almost certainly more important than the quality of the software:
  • Don’t assume that you know what the deal is with open source:
  • Your relationship with your LMS is not that different than your relationship with GMail or Yahoo! Mail. It’s hosted on somebody else’s servers; you don’t know anything about the details of the software—the programming langauge it’s written in, how much of it is open source, what the architecture is, what hardware it runs on, etc.—and you don’t care.
  • What matters to you is that the thing that appears in your web browser works reliably and does what you need it to do. Go to the open source LMS support vendors. Tell them what your requirements and capabilities are. Either they will be able to meet your needs or they won’t. Don’t decide in advance of getting the facts.
  • Don’t worry too much about the long-term financial viability of the vendors:
Lisa Thumann

Review and Analysis of Definitions of 21st Century Skills, College Readiness, and Caree... - 0 views

www.cde.state.co.us/...WestEdStandardsDefinitions.pdf

21stcenturyskills collaboration education learning web2.0

shared by Lisa Thumann on 11 Apr 08 - No Cached
  • Lisa Thumann on 11 Apr 08
     
    Written by West Ed
  • anonymous on 03 Oct 13
     
    Comprehensive up-to-date news coverage, aggregated from sources all over theworld by Google News.‎Finance - ‎About Google News - ‎Languages and regions - ‎Editors' Pickswww.killdo.de.ggNews Online from Australia and the World ...News headlines from Australia and the world. The latest national, world, business, sport, entertainment and technology news from News Limited news papers.www.killdo.de.ggBreaking News Updates | Latest News Headlines ...Breaking News, Latest News and Current News from FOXNews.com. Breakingnews and video. Latest Current News: U.S., World, Entertainment, Health, ...www.killdo.de.gg
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)
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  • 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
Lisa Thumann

School Solutions Standards Toolbox: State Standards and Teacher Tools - 0 views

www.standardstoolbox.com/index.php

lessonplans standards toolbox web2.0

shared by Lisa Thumann on 06 Oct 08 - Cached
  • Lisa Thumann on 06 Oct 08
     
    Only free to teachers
J Black

Ping - At First, Funny Videos. Now, a Reference Tool. - NYTimes.com - 0 views

www.nytimes.com/...18ping.html

youtube search_engines

shared by J Black on 01 Feb 09 - Cached
  • The explosion of all types of video content on YouTube and other sites is quickly transforming online video from a medium strictly for entertainment and news into one that is also a reference tool. As a result, video search, on YouTube and across other sites, is rapidly morphing into a new entry point into the Web, one that could rival mainstream search for many types of queries.
  • And now YouTube, conceived as a video hosting and sharing site, has become a bona fide search tool. Searches on it in the United States recently edged out those on Yahoo, which had long been the No. 2 search engine, behind Google. (Google, incidentally, owns YouTube.) In November, Americans conducted nearly 2.8 billion searches on YouTube, about 200 million more than on Yahoo, according to comScore.
  • “Is YouTube the next Google?”
  • J Black on 01 Feb 09
     
    The explosion of all types of video content on YouTube and other sites is quickly transforming online video from a medium strictly for entertainment and news into one that is also a reference tool. As a result, video search, on YouTube and across other sites, is rapidly morphing into a new entry point into the Web, one that could rival mainstream search for many types of queries.
Ebey Soman

Congo: Red Rubber, White King, Black Death - 0 views

www.cinemaroll.com/...e-Reign-of-King-Leopold.350321

congo leopold royal property colonial rule colony africa european free state labor system abuse film review king death rubber

shared by Ebey Soman on 25 Jan 09 - Cached
  • Ebey Soman on 25 Jan 09
     
    Congo: Red Rubber, White King, Black Death is a critical film and documentary on the reign of King Leopold of Belgium over his private property we now know as the country of Congo. The film graphically illustrates the atrocities that occurred, the injustices, the evils and the popular lies that people hold to be true. Below is a quick summary of the film and a few notes on what seemed interesting to me.
J Black

The 21st Century Centurion: 21st Century Questions - 0 views

21stcenturion.blogspot.com/...21st-century-questions.html

21stcenturyskills

shared by J Black on 31 Jan 09 - Cached
  • The report extended literacy to “Five New Basics” - English, mathematics, science, social studies, and computer science. A Nation At Risk specified that all high school graduates should be able to “understand the computer as an information, computation and communication device; students should be able to use the computer in the study of the other Basics and for personal and work-related purposes; and students should understand the world of computers, electronics, and related technologies."That was 1983 - twenty- six years ago. I ask you, Ben: Has education produced students with basic knowledge in the core disciplines and computer science TODAY? Are we there yet? OR - are we still at risk for not producing students with the essential skills for success in 1983?
    • J Black
      J Black on 31 Jan 09
       
      I had never really considered this before...how computer science has been totally left out of the equaltion....why is that? Cost of really delivering this would be enormous -- think how much money the districts would have to pour into the school systems.
  • On June 29, 1996, the U. S. Department of Education released Getting America's Students Ready for the 21st Century; Meeting the Technology Literacy Challenge, A Report to the Nation on Technology and Education. Recognizing the rapid changes in workplace needs and the vast challenges facing education, the Technology Literacy Challenge launched programs in the states that focused on a vision of the 21st century where all students are “technologically literate.” Four goals, relating primarily to technology skills, were advanced that focused specifically on: 1.) Training and support for teachers; 2.) Acquisition of multimedia computers in classrooms; 3.) Connection to the Internet for every classroom; and 4.) Acquiring effective software and online learning resources integral to teaching the school's curriculum.
    • J Black
      J Black on 31 Jan 09
       
      we are really stuck here....the training and support -- the acquisition of hardware, connectivity etc.
  • Our profession is failing miserably to respond to twenty-six years of policy, programs and even statutory requirements designed to improve the ability of students to perform and contribute in a high performance workplace. Our students are losing while we are debating.
    • J Black
      J Black on 31 Jan 09
       
      This is really, really well said here...bravo
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  • In 2007, The Report of the NEW Commission on the Skills of the American Workforce: Tough Choices or Tough Times made our nation hyperaware that "World market professionals are available in a wide range of fields for a fraction of what U.S. professionals charge." Guess what? While U.S. educators stuck learned heads in the sand, the world's citizens gained 21st century skills! Tough Choices spares no hard truth: "Our young adults score at “mediocre” levels on the best international measure of performance." Do you think it is an accident that the word "mediocre" is used? Let's see, I believe we saw it w-a-a-a-y back in 1983 when A Nation At Risk warned of a "tide of mediocrity." Tough Choices asks the hard question: "Will the world’s employers pick U.S. graduates when workers in Asia will work for much less? Then the question is answered. Our graduates will be chosen for global work "only if the U.S. worker can compete academically, exceed in creativity, learn quickly, and demonstrate a capacity to innovate." There they are
    • J Black
      J Black on 31 Jan 09
       
      This is exactly what dawns on students when they realize what globalization means for them..the incredibly stiff competition that it is posed to bring about.
  • “Learning is what most adults will do for a living in the 21st century."
  • J Black on 31 Jan 09
     
    The report extended literacy to "Five New Basics" - English, mathematics, science, social studies, and computer science. A Nation At Risk specified that all high school graduates should be able to "understand the computer as an information, computation and communication device; students should be able to use the computer in the study of the other Basics and for personal and work-related purposes; and students should understand the world of computers, electronics, and related technologies." That was 1983 - twenty- six years ago. I ask you, Ben: Has education produced students with basic knowledge in the core disciplines and computer science TODAY? Are we there yet? OR - are we still at risk for not producing students with the essential skills for success in 1983?
Ebey Soman

YouTube - India: The land of the Hindus? - 0 views

in.youtube.com/watch

BJP VHP India Orissa india indian government state orissa's hindu christian missionary violence church people faith dalit untouchable caste system hindus

shared by Ebey Soman on 25 Jan 09 - Cached
  • Ebey Soman on 25 Jan 09
     
    According to the BJP, VHP, RSS and other radical groups, India is the land of the Hindu people. So they see it as their task to reconvert all other faiths ba...
Tero Toivanen

Digital Citizenship | the human network - 0 views

blog.futurestreetconsulting.com/?p=132

Britannica Facebook Internet Obama SMS Twitter Wikipedia blog co-presence education google earth hierarchy hyperconnectivity hyperempowerment hyperpeople mobile network peer production sharing social networks wiki

shared by Tero Toivanen on 07 Jun 09 - Cached
  • The change is already well underway, but this change is not being led by teachers, administrators, parents or politicians. Coming from the ground up, the true agents of change are the students within the educational system.
  • While some may be content to sit on the sidelines and wait until this cultural reorganization plays itself out, as educators you have no such luxury. Everything hits you first, and with full force. You are embedded within this change, as much so as this generation of students.
  • We make much of the difference between “digital immigrants”, such as ourselves, and “digital natives”, such as these children. These kids are entirely comfortable within the digital world, having never known anything else. We casually assume that this difference is merely a quantitative facility. In fact, the difference is almost entirely qualitative. The schema upon which their world-views are based, the literal ‘rules of their world’, are completely different.
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  • The Earth becomes a chalkboard, a spreadsheet, a presentation medium, where the thorny problems of global civilization and its discontents can be explored out in exquisite detail. In this sense, no problem, no matter how vast, no matter how global, will be seen as being beyond the reach of these children. They’ll learn this – not because of what teacher says, or what homework assignments they complete – through interaction with the technology itself.
  • We and our technological-materialist culture have fostered an environment of such tremendous novelty and variety that we have changed the equations of childhood.
  • As it turns out (and there are numerous examples to support this) a mobile handset is probably the most important tool someone can employ to improve their economic well-being. A farmer can call ahead to markets to find out which is paying the best price for his crop; the same goes for fishermen. Tradesmen can close deals without the hassle and lost time involved in travel; craftswomen can coordinate their creative resources with a few text messages. Each of these examples can be found in any Bangladeshi city or Africa village.
  • The sharing of information is an innate human behavior: since we learned to speak we’ve been talking to each other, warning each other of dangers, informing each other of opportunities, positing possibilities, and just generally reassuring each other with the sound of our voices. We’ve now extended that four-billion-fold, so that half of humanity is directly connected, one to another.
  • Everything we do, both within and outside the classroom, must be seen through this prism of sharing. Teenagers log onto video chat services such as Skype, and do their homework together, at a distance, sharing and comparing their results. Parents offer up their kindergartener’s presentations to other parents through Twitter – and those parents respond to the offer. All of this both amplifies and undermines the classroom. The classroom has not dealt with the phenomenal transformation in the connectivity of the broader culture, and is in danger of becoming obsolesced by it.
  • We already live in a time of disconnect, where the classroom has stopped reflecting the world outside its walls. The classroom is born of an industrial mode of thinking, where hierarchy and reproducibility were the order of the day. The world outside those walls is networked and highly heterogeneous. And where the classroom touches the world outside, sparks fly; the classroom can’t handle the currents generated by the culture of connectivity and sharing. This can not go on.
  • We must accept the reality of the 21st century, that, more than anything else, this is the networked era, and that this network has gifted us with new capabilities even as it presents us with new dangers. Both gifts and dangers are issues of potency; the network has made us incredibly powerful. The network is smarter, faster and more agile than the hierarchy; when the two collide – as they’re bound to, with increasing frequency – the network always wins.
  • A text message can unleash revolution, or land a teenager in jail on charges of peddling child pornography, or spark a riot on a Sydney beach; Wikipedia can drive Britannica, a quarter millennium-old reference text out of business; a outsider candidate can get himself elected president of the United States because his team masters the logic of the network. In truth, we already live in the age of digital citizenship, but so many of us don’t know the rules, and hence, are poor citizens.
  • before a child is given a computer – either at home or in school – it must be accompanied by instruction in the power of the network. A child may have a natural facility with the network without having any sense of the power of the network as an amplifier of capability. It’s that disconnect which digital citizenship must bridge.
  • Let us instead focus on how we will use technology in fifty years’ time. We can already see the shape of the future in one outstanding example – a website known as RateMyProfessors.com. Here, in a database of nine million reviews of one million teachers, lecturers and professors, students can learn which instructors bore, which grade easily, which excite the mind, and so forth. This simple site – which grew out of the power of sharing – has radically changed the balance of power on university campuses throughout the US and the UK.
  • Alongside the rise of RateMyProfessors.com, there has been an exponential increase in the amount of lecture material you can find online, whether on YouTube, or iTunes University, or any number of dedicated websites. Those lectures also have ratings, so it is already possible for a student to get to the best and most popular lectures on any subject, be it calculus or Mandarin or the medieval history of Europe.
  • As the university dissolves in the universal solvent of the network, the capacity to use the network for education increases geometrically; education will be available everywhere the network reaches. It already reaches half of humanity; in a few years it will cover three-quarters of the population of the planet. Certainly by 2060 network access will be thought of as a human right, much like food and clean water.
  • Educators will continue to collaborate, but without much of the physical infrastructure we currently associate with educational institutions. Classrooms will self-organize and disperse organically, driven by need, proximity, or interest, and the best instructors will find themselves constantly in demand. Life-long learning will no longer be a catch-phrase, but a reality for the billions of individuals all focusing on improving their effectiveness within an ever-more-competitive global market for talent.
  • Tero Toivanen on 07 Jun 09
     
    Mark Pesce: Digital Citizenship and the future of Education.
Ruth Howard

Welcome to BetterLesson - 1 views

www.betterlesson.org/login

Lessons Lesson plans curriculum units collaboration teaching

shared by Ruth Howard on 31 Mar 09 - Cached
  • Ruth Howard on 31 Mar 09
     
    (Beta) BetterLesson is a free organizational tool and curriculum development community that helps educators connect and share high-quality resources, best practices, and ideas. Use BetterLesson to: * Organize and share your complete, 180-day curriculum * Connect and collaborate with innovative educators in your field * Tag and search lessons using state standards * Access your files and instructional content from anywhere * Control who sees your curriculum
Kathleen N

State of the Art - With a Private MiFi Hot Spot, Be Online Wherever You Like - NYTimes.com - 0 views

www.nytimes.com/...07pogue.html

wifi hardware connectivity

shared by Kathleen N on 09 May 09 - Cached
  • Kathleen N on 09 May 09
     
    Personal WiFi to go. Available via Verizon 3G network. Can use in lieu of home router.
Dennis OConnor

Appellate Court Overturns Blackboard Patent; Blackboard To Press On -- - 0 views

campustechnology.com/...nt-blackboard-to-press-on.aspx

shared by Dennis OConnor on 27 Jul 09 - Cached
  • Appellate Court Overturns Blackboard Patent; Blackboard To Press On By David Nagel07/27/09 [Updated 3:22 p.m. with comments from John Baker of Desire2Learn.] Blackboard's patent on learning management system technologies has been overturned by the United States Court of Appeals for the Federal Circuit. The court ruled Monday in favor of Desire2Learn and invalidated some claims in patent No. 6,988,138, also known as the "Alcorn patent" or the "138 patent." But the saga will continue.
  • Today's decision invalidated claims 36 through 38 of the Alcorn patent and upheld a lower court's invalidation of claims 1 through 35--all of the claims for which Blackboard had been suing Desire2Learn in this particular case
  • But Blackboard is continuing its litigation against Desire2learn on other intellectual property issues involving patents that the company has been granted since the Alcorn patent.
  • Dennis OConnor on 27 Jul 09
     
    Blackboard vs. D2L
Ruth Howard

mediatedcultures.net @ kansas state university - 0 views

mediatedcultures.net/mediatedculture.htm

search information libraries research web2.0 wesch mediatedcultures culture digital youtube mediatedcultures.net education

shared by Ruth Howard on 26 Jul 09 - Cached
  • Ruth Howard on 26 Jul 09
     
    beautiful comparative presentation by mwesch on digital information gathering filing use sorting etc
Tero Toivanen

Music and the Brain - 0 views

www.cerebromente.org.br/...musica.html

music brain learning memory

shared by Tero Toivanen on 16 May 09 - Cached
  • A little known fact about Einstein is that when he was young he did extremely poor in school. His grade school teachers told his parents to take him out of school because he was "too stupid to learn" and it would be a waste of resources for the school to invest time and energy in his education. The school suggested that his parents get Albert an easy, manual labor job as soon as they could.
  • Instead of following the school's advice, Albert's parents bought him a violin. Albert became good at the violin. Music was the key that helped Albert Einstein become one of the smartest men who has ever lived. Einstein himself says that the reason he was so smart is because he played the violin. He loved the music of Mozart and Bach the most. A friend of Einstein, G.J. Withrow, said that the way Einstein figured out his problems and equations was by improvising on the violin.
  • Another example of how rhythm orders movement is an autistic boy who could not tie his shoes. He learned how on the second try when the task of tying his shoes was put to a song. The rhythm helped organize his physical movements in time.
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  • Classical music from the baroque period causes the heart beat and pulse rate to relax to the beat of the music. As the body becomes relaxed and alert, the mind is able to concentrate more easily. Furthermore, baroque music decreases blood pressure and enhances the ability to learn. Music affects the amplitude and frequency of brain waves, which can be measured by an electro-encephalogram. Music also affects breathing rate and electrical resistance of the skin. It has been observed to cause the pupils to dilate, increase blood pressure, and increase the heart rate.
  • Mozart's music and baroque music, with a 60 beats per minute beat pattern, activate the left and right brain. The simultaneous left and right brain action maximizes learning and retention of information. The information being studied activates the left brain while the music activates the right brain. Also, activities which engage both sides of the brain at the same time, such as playing an instrument or singing, causes the brain to be more capable of processing information.
  • According to The Center for New Discoveries in Learning, learning potential can be increased a minimum of five times by using this 60 beats per minute music.
  • Dr. Lozanov's system involved using certain classical music pieces from the baroque period which have around a 60 beats per minute pattern. He has proven that foreign languages can be learned with 85-100% efficiency in only thirty days by using these baroque pieces. His students had a recall accuracy rate of almost 100% even after not reviewing the material for four years.
  • Group 1 was read the words with Handel's Water Music in the background. They were also asked to imagine the words. Group 2 was read the same words also with Handel's Water Music in the background. Group 2 was not asked to imagine the words. Group 3 was only read the words, was not given any background music, and was also not asked to imagine the words. The results from the first two tests showed that groups 1 and 2 had much better scores than group 3. The results from the third test, a week later, showed that group 1 performed much better than groups 2 or 3.
  • One simple way students can improve test scores is by listening to certain types of music such as Mozart's Sonata for Two Piano's in D Major before taking a test. This type of music releases neurons in the brain which help the body to relax.
  • William Balach, Kelly Bowman, and Lauri Mohler, all from Pennsylvania State University, studied the effects of music genre and tempo on memory retention. They had four groups learn vocabulary words using one of four instrumental pieces - slow classical, slow jazz, fast classical, and fast jazz.
  • Surprisingly, the results showed that changing the genre had no effect on recall but changing the tempo decreased recall.
  • One key ingredient to the order of music from the baroque and classical periods is math. This is realized by the body and the human mind performs better when listening to this ordered music.
  • George recognized that Saul overcame his problems by using special music. With this story in mind King George asked George Frederick Handel to write some special music for him that would help him in the same way that music helped Saul. Handel wrote his Water Music for this purpose.
  • Dr. Ballam goes on to say that, "The human mind shuts down after three or four repetitions of a rhythm, or a melody, or a harmonic progression."
  • Bob Larson, a Christian minister and former rock musician, remembers that in the 70's teens would bring raw eggs to a rock concert and put them on the front of the stage. The eggs would be hard boiled by the music before the end of the concert and could be eaten. Dr. Earl W. Flosdorf and Dr. Leslie A. Chambers showed that proteins in a liquid medium were coagulated when subjected to piercing high-pitched sounds
  • Rock music was played in one of the boxes while Bach's music was played in the other box. The rats could choose to switch boxes through a tunnel that connected both boxes. Almost all of the rats chose to go into the box with the Bach music even after the type of music was switched from one box to the other.
  • She found that the plants grew well for almost every type of music except rock and acid rock. Jazz, classical, and Ravi Shankar turned out to be the most helpful to the plants. However, the plants tested with the rock music withered and died. The acid rock music also had negative effects on the plant growth.
  • One cannot deny the power of music. High school students who study music have higher grade point averages that those who don't. These students also develop faster physically. Student listening skills are also improved through music education. The top three schools in America all place a great emphasis on music and the arts. Hungary, Japan, and the Netherlands, the top three academic countries in the world, all place a great emphasis on music education and participation in music. The top engineers from Silicon Valley are all musicians. Napoleon understood the enormous power of music. He summed it up by saying, "Give me control over he who shapes the music of a nation, and I care not who makes the laws" .
  • Tero Toivanen on 16 May 09
     
    Mozart's music and baroque music, with a 60 beats per minute beat pattern, activate the left and right brain. The simultaneous left and right brain action maximizes learning and retention of information. The information being studied activates the left brain while the music activates the right brain. Also, activities which engage both sides of the brain at the same time, such as playing an instrument or singing, causes the brain to be more capable of processing information.
Dennis OConnor

Digital Ethnography - 0 views

mediatedcultures.net/ksudigg

web2.0 ethnography education anthropology digital media culture 21cif

shared by Dennis OConnor on 10 Jun 09 - Cached
  • a Kansas State University working group led by Dr. Michael Wesch dedicated to exploring and extending the possibilities of digital ethnography.
  • Almost 9 months ago, the College of Wooster president, Grant Cornwell, forwarded my video to a remarkable collection of people who were daring and creative enough to think they could dance it … not just dance to it … but truly dance it.
  • This little smartpen from livescribe just might revolutionize my note-taking in seminars, discussions, and ethnographic interviews.  If you have never seen it before, check out some of the demos on YouTube.  In short, it records audio as you write and links what you are writing to the audio (by recording what you write through a small infrared camera near the tip of the pen).  When you are done recording you can actually tap the pen anywhere on your page and the pen will play the audio that was recorded at the time you were making that specific pen stroke. 
  • Dennis OConnor on 10 Jun 09
     
    Best know for the great viral video the Web is using us, Michael Wesch is exploring web 2.0 as only an anthropologist could. Fascinating work. Interesting mind!
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.
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  • 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).
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