Skip to main content

Home/ Diigo In Education/ Group items tagged computational thinking

Rss Feed Group items tagged

Lisa C. Hurst

Inside the School Silicon Valley Thinks Will Save Education | WIRED - 9 views

  •  
    "AUTHOR: ISSIE LAPOWSKY. ISSIE LAPOWSKY DATE OF PUBLICATION: 05.04.15. 05.04.15 TIME OF PUBLICATION: 7:00 AM. 7:00 AM INSIDE THE SCHOOL SILICON VALLEY THINKS WILL SAVE EDUCATION Click to Open Overlay Gallery Students in the youngest class at the Fort Mason AltSchool help their teacher, Jennifer Aguilar, compile a list of what they know and what they want to know about butterflies. CHRISTIE HEMM KLOK/WIRED SO YOU'RE A parent, thinking about sending your 7-year-old to this rogue startup of a school you heard about from your friend's neighbor's sister. It's prospective parent information day, and you make the trek to San Francisco's South of Market neighborhood. You walk up to the second floor of the school, file into a glass-walled conference room overlooking a classroom, and take a seat alongside dozens of other parents who, like you, feel that public schools-with their endless bubble-filled tests, 38-kid classrooms, and antiquated approach to learning-just aren't cutting it. At the same time, you're thinking: this school is kind of weird. On one side of the glass is a cheery little scene, with two teachers leading two different middle school lessons on opposite ends of the room. But on the other side is something altogether unusual: an airy and open office with vaulted ceilings, sunlight streaming onto low-slung couches, and rows of hoodie-wearing employees typing away on their computers while munching on free snacks from the kitchen. And while you can't quite be sure, you think that might be a robot on wheels roaming about. Then there's the guy who's standing at the front of the conference room, the school's founder. Dressed in the San Francisco standard issue t-shirt and jeans, he's unlike any school administrator you've ever met. But the more he talks about how this school uses technology to enhance and individualize education, the more you start to like what he has to say. And so, if you are truly fed up with the school stat
Tonya Thomas

Future Work Skills 2020 - 3 views

  • Transdisciplinarity: literacy in and ability to understand concepts across multiple disciplines. More about transdisciplinarity.Virtual collaboration: ability to work productively, drive engagement, and demonstrate presence as a member of a virtual team. More about virtual collaboration.Sense-making: ability to determine the deeper meaning or significance of what is being expressed. More about sense-making.Social intelligence: ability to connect to others in a deep and direct way, to sense and stimulate reactions and desired interactions. More about social intelligence.Cross-cultural competency: ability to operate in different cultural settings. More about cross-cultural competency.Cognitive load management: ability to discriminate and filter information for importance, and to understand how to maximize cognitive functioning using a variety of tools and techniques. More about cognitive load management.Novel and adaptive thinking: proficiency at thinking and coming up with solutions and responses beyond that which is rote or rule-based. More about novel and adaptive thinking.Computational thinking: ability to translate vast amounts of data into abstract concepts and to understand data-based reasoning. More about computational thinking.New media literacy: ability to critically assess and develop content that uses new media forms, and to leverage these media for persuasive communication. More about new media literacy. More about new media literacy.Design mindset: ability to represent and develop tasks and work processes for desired outcomes. More about design mindset.
  •  
    "Transdisciplinarity: literacy in and ability to understand concepts across multiple disciplines. More about transdisciplinarity. Virtual collaboration: ability to work productively, drive engagement, and demonstrate presence as a member of a virtual team. More about virtual collaboration. Sense-making: ability to determine the deeper meaning or significance of what is being expressed. More about sense-making. Social intelligence: ability to connect to others in a deep and direct way, to sense and stimulate reactions and desired interactions. More about social intelligence. Cross-cultural competency: ability to operate in different cultural settings. More about cross-cultural competency. Cognitive load management: ability to discriminate and filter information for importance, and to understand how to maximize cognitive functioning using a variety of tools and techniques. More about cognitive load management. Novel and adaptive thinking: proficiency at thinking and coming up with solutions and responses beyond that which is rote or rule-based. More about novel and adaptive thinking. Computational thinking: ability to translate vast amounts of data into abstract concepts and to understand data-based reasoning. More about computational thinking. New media literacy: ability to critically assess and develop content that uses new media forms, and to leverage these media for persuasive communication. More about new media literacy. More about new media literacy. Design mindset: ability to represent and develop tasks and work processes for desired outcomes. More about design mindset."
Steve Kelly

What would an exceptional middle and high school computer science curriculum include? -... - 48 views

  • What would an exceptional middle and high school computer science curriculum include?
  • This isn't a complete answer, but one thing the very first introductory classes should require is that the students turn off all their electronic computers and actually learn to walk through  algorithms with a computer that exists only on paper. (Or, I suppose, a whiteboard or a simulator.) This exercise would give the students a grounding in what is going on inside the computer as a very low level.My first computer programming class in my Freshman year of high school was completely on paper. Although it was done because the school didn't have much money, it turned out to be very beneficial.Another class I had in high school, that wouldn't normally be lumped into a Computer Science curriculum but has been a boon to my career, was good old Typing 101.
  • If you followed the CS Unplugged curriculum your students would know more about CS than most CS grads:http://csunplugged.orgIt's a really great intro to basic computer science concepts and very easy for students to understand.  Best of all you don't even need a computer per student if your school doesn't have the budget,
  • ...6 more annotations...
  • For younger students, I think that the ability to make something professional-looking, like a real grown-up would, is paramount.  Sadly, I think this means that LOGO and BASIC aren't much use any more*.
  • So, we have a few choices.  You can try to write phone apps that look just like real phone apps, design interactive websites that look just like real interactive websites, or do something with embedded systems / robotics.  Avoid the temptation to make these things into group projects; the main thing every student needs to experience is the process of writing code, running it, debugging it, and watching the machine react to every command.
  • It is important to consider what an 11 to 18-year old is familiar with in terms of mathematics and logical thinking. An average 11-year old is probably learning about fractions, simple cartesian geometry, the concept of units, and mathematical expressions. By 15, the average student will be taking algebra, and hopefully will have the all-important concept of variables under his/her belt. So much in CS is dependent on solid understanding that symbols and tokens can represent abstract concepts, values, or algorithms. Without it, it's still possible to teach CS, but it must be done in a very different way (see Scratch).
  • At this point, concepts such as variables, parenthesis matching, and functions (of the mathematical variety) are within easy reach. Concepts like parameter passing, strings and collections, and program flow should be teachable. More advanced concepts such as recursion, references and pointers, certain data structures, and big-O may be very difficult to teach without first going through some more foundational math.
  • I tend to agree strongly with those that believe a foundational education should inspire interest and enforce concepts and critical thinking over teaching any specific language, framework, system, or dogma.
  • The key is that the concepts in CS aren't just there for the hell of it. Everything was motivated by a real problem, and few things are more satisfying than fixing something you really want to work with a cool technique or concept you just learned.
  •  
    Great resource for teachers (especially those of us not initially trained in Computer Science) about what should 'count' as Computer Science.  Worth the read!
Tim Cooper

Computational Thinking: I do not think it means what you think it means - Medium - 32 views

  •  
    This is an excellent deconstruction of the pop term "computational thinking" and a reconstruction of Papert's real meaning (which is so much more powerful!).
Siri Anderson

Artificial intelligence | Playlist | TED.com - 13 views

  •  
    I used to promote teaching K-8 computational thinking and coding because of the social justice issues around access to the language of power, economic opportunities, and a belief that learning CT enhances overall academic competencies for those likely to be challenged to succeed in schools.. Now I'm an advocate for a different set of reasons that seem more preeminent. We need everyone to learn computational thinking because ethics and protecting the right to spirituality/secular humanist values seem to be what computers won't be able to do better than humans. Therefore we better have humans who are ethically grounded, informed by the humanities, and competent to understand the implications of the computer software we create. This is a great watch list or podcast list to spur considerations of this urgent matter of the unregulated world of AI.
Gil Anspacher

ISTE | CT Toolkit - 4 views

  •  
    Computational Thinking: A mix of critical thinking skills and computer technology process skills. Lots of very useful resources for CT.
Mark Swartz

Role and Function of Theory in Online Education Development and Delivery - 3 views

  • According to Bonk and Reynolds (1997), to promote higher-order thinking on the Web, online learning must create challenging activities that enable learners to link new information to old, acquire meaningful knowledge, and use their metacognitive abilities; hence, it is the instructional strategy and not the technology tha
  • According to Bonk and Reynolds (1997), to promote higher-order thinking on the Web, online learning must create challenging activities that enable learners to link new information to old, acquire meaningful knowledge, and use their metacognitive abilities; hence, it is the instructional strategy and not the technology that influences the quality of learning.
  • However, it is not the computer per se that makes students learn, but the design of the real-life models and simulations, and the students' interaction with those models and simulations. The computer is merely the vehicle that provides the processing capability and delivers the instruction to learners (Clark, 2001).
  • ...35 more annotations...
  • Online learning allows for flexibility of access, from anywhere and usually at anytime—essentially, it allows participants to collapse time and space (Cole, 2000)—however, the learning materials must be designed properly to engage the learner and promote learning.
  • Cognitive psychology claims that learning involves the use of memory, motivation, and thinking, and that reflection plays an important part in learning.
  • The development of effective online learning materials should be based on proven and sound learning theories.
  • Early computer learning systems were designed based on a behaviorist approach to learning. The behaviorist school of thought, influenced by Thorndike (1913), Pavlov (1927), and Skinner (1974), postulates that learning is a change in observable behavior caused by external stimuli in the environment (Skinner, 1974).
  • Therefore, before any learning materials are developed, educators must, tacitly or explicitly, know the principles of learning and how students learn.
  • Constructivist theorists claim that learners interpret information and the world according to their personal reality, and that they learn by observation, processing, and interpretation, and then personalize the information into personal knowledge (Cooper, 1993; Wilson, 1997).
  • The design of online learning materials can include principles from all three. According to Ertmer and Newby (1993), the three schools of thought can in fact be used as a taxonomy for learning. Behaviorists' strategies can be used to teach the “what” (facts), cognitive strategies can be used to teach the “how” (processes and principles), and constructivist strategies can be used to teach the “why” (higher level thinking that promotes personal meaning and situated and contextual learning).
  • The behaviorist school sees the mind as a “black box,” in the sense that a response to a stimulus can be observed quantitatively, totally ignoring the effect of thought processes occurring in the mind.
  • Learners should be told the explicit outcomes of the learning so that they can set expectations and can judge for themselves whether or not they have achieved the outcome of the online lesson. 2.  Learners must be tested to determine whether or not they have achieved the learning outcome. Online testing or other forms of testing and assessment should be integrated into the learning sequence to check the learner's achievement level and to provide appropriate feedback. 3.  Learning materials must be sequenced appropriately to promote learning. The sequencing could take the form of simple to complex, known to unknown, and knowledge to application. 4.  Learners must be provided with feedback so that they can monitor how they are doing and take corrective action if required.
  • Cognitivists see learning as an internal process that involves memory, thinking, reflection, abstraction, motivation, and meta-cognition.
  • Online instruction must use strategies to allow learners to attend to the learning materials so that they can be transferred from the senses to the sensory store and then to working memory.
  • Online learning strategies must present the materials and use strategies to enable students to process the materials efficiently.
  • information should be organized or chunked in pieces of appropriate size to facilitate processing.
  • Use advance organizers to activate an existing cognitive structure or to provide the information to incorporate the details of the lesson (Ausubel, 1960).
  • Use pre-instructional questions to set expectations and to activate the learners' existing knowledge structure.
  • Use prerequisite test questions to activate the prerequisite knowledge structure required for learning the new materials.
  • To facilitate deep processing, learners should be asked to generate the information maps during the learning process or as a summary activity after the lesson (Bonk & Reynolds, 1997).
  • The cognitive school recognizes the importance of individual differences, and of including a variety of learning strategies in online instruction to accommodate those differences
  • The Kolb Learning Style Inventory (LSI) (Kolb, 1984) looks at how learners perceive and process information, whereas the Myers-Briggs Type Indicator (Myers, 1978) uses dichotomous scales to measure extroversion versus introversion, sensing versus intuition, thinking versus feeling, and judging versus perception. In the following discussion, we consider the Kolb Learning Style Inventory.
  • Attention: Capture the learners' attention at the start of the lesson and maintain it throughout the lesson. The online learning materials must include an activity at the start of the learning session to connect with the learners. Relevance: Inform learners of the importance of the lesson and how taking the lesson could benefit them. Strategies could include describing how learners will benefit from taking the lesson, and how they can use what they learn in real-life situations. This strategy helps to contextualize the learning and make it more meaningful, thereby maintaining interest throughout the learning session. Confidence: Use strategies such as designing for success and informing learners of the lesson expectations. Design for success by sequencing from simple to complex, or known to unknown, and use a competency-based approach where learners are given the opportunity to use different strategies to complete the lesson. Inform learners of the lesson outcome and provide ongoing encouragement to complete the lesson. Satisfaction: Provide feedback on performance and allow learners to apply what they learn in real-life situations. Learners like to know how they are doing, and they like to contextualize what they are learning by applying the information in real life.
  • Online strategies that facilitate the transfer of learning should be used to encourage application in different and real-life situations.
  • Constructivists see learners as being active rather than passive.
  • it is the individual learner's interpretation and processing of what is received through the senses that creates knowledge.
  • “the process of using a prior interpretation to construe a new or revised interpretation of the meaning of one's experience in order to guide future action” (p. 12).
  • Learning should be an active process. Keeping learners active doing meaningful activities results in high-level processing, which facilitates the creation of personalized meaning. Asking learners to apply the information in a practical situation is an active process, and facilitates personal interpretation and relevance.
  • Learners should construct their own knowledge rather than accepting that given by the instructor.
  • Collaborative and cooperative learning should be encouraged to facilitate constructivist learning (H
  • When assigning learners for group work, membership should be based on the expertise level and learning style of individual group members, so that individual team members can benefit from one another's strengths.
  •   Learners should be given control of the learning process
  • Learners should be given time and opportunity to reflect.
  • Learning should be made meaningful for learners. The learning materials should include examples that relate to students, so that they can make sense of the information.
  • Learning should be interactive to promote higher-level learning and social presence, and to help develop personal meaning. According to Heinich et al. (2002), learning is the development of new knowledge, skills, and attitudes as the learner interacts with information and the environment. Interaction is also critical to creating a sense of presence and a sense of community for online learners, and to promoting transformational learning (Murphy & Cifuentes, 2001). Learners receive the learning materials through the technology, process the information, and then personalize and contextualize the information.
  • Figure 1-6. Components of effective online learning.
  • Behaviorist strategies can be used to teach the facts (what); cognitivist strategies to teach the principles and processes (how); and constructivist strategies to teach the real-life and personal applications and contextual learning. There is a shift toward constructive learning, in which learners are given the opportunity to construct their own meaning from the information presented during the online sessions. The use of learning objects to promote flexibility and reuse of online materials to meet the needs of individual learners will become more common in the future. Online learning materials will be designed in small coherent segments, so that they can be redesigned for different learners and different contexts. Finally, online learning will be increasingly diverse to respond to different learning cultures, styles, and motivations.
  • Online instruction occurs when learners use the Web to go through the sequence of instruction, to complete the learning activities, and to achieve learning outcomes and objectives (Ally, 2002; Ritchie & Hoffman, 1997).
  •  
    From:  FOUNDATIONS OF EDUCATIONAL THEORY FOR ONLINE LEARNING
Mr. Carver

The rise of the Digital Refuseniks - Newspaper Tree El Paso - 0 views

  • re•fuse•nik (n) somebody who refuses to agree to, take part in, or cooperate with something, especially on grounds of principle (informal) Why do I think people are Refuseniks? Let's look at a little history: The first major introduction of computers into the classroom took place, essentially with the introduction of the Apple II-e computer. The Apple II-e was introduced in 1983 and became a staple of campuses around the world. So, in order to keep things simple, let’s just say it was 1985 by the time Apple II-e’s really hit it big in the classroom. So, without too much mathematical calculation going on here, it is not a stretch to say that computers have been in the schools for at least 24 years. A teacher, even with 35 years experience today, will have had 63% of their professional life exposed to computers in their work environment. A teacher with less than 24 years of experience will have not known a school without a computer.
    • Mr. Carver
       
      That is not necessarily a fair assessment as computers were not in CLASSROOMS. Most schools had a lab where you went to work on the computers they weren't readily available for use.
  •  
    Refusenik is a good term for those who refuse to integrate technology. Luddite is another good term.
  •  
    Refusenik is a good term for those who refuse to integrate technology. Luddite is another good term.
Roland Gesthuizen

Computer Science for High School: Computing and Information Systems, University of Melb... - 34 views

  •  
    CS4HS is an initiative sponsored by Google to promote Computer Science and Computational Thinking in the secondary curriculum. This page lists CS4HS activities hosted at the University of Melbourne.
Julie Whitehead

Will the Real Digital Native Please Stand Up? -- Campus Technology - 2 views

  •  
    I have personally experienced this in the college level computer class I teach. Even those students that think they know computers and are an expert, don't know how to use the computer in a work environment to solve problems and critically assess ideas. They google something and only look at 1 source and even cite that course
Roland Gesthuizen

A Critique of Technocentrism in Thinking About the School of the Future - 33 views

  •  
    "So we are entering this computer future; but what will it be like? What sort of a world will it be? There is no shortage of experts, futurists, and prophets who are ready to tell us, but they don't agree. The Utopians promise us a new millennium, a wonderful world in which the computer will solve all our problems. The computer critics warn us of the dehumanizing effect of too much exposure to machinery, and of disruption of employment in the workplace and the economy. Who is right? Well, both are wrong -- because they are asking the wrong question"
Roland Gesthuizen

Fractals without a Computer! | Good Math, Bad Math - 32 views

  • We tend to think of fractals in computational terms, because in general we generate fractal images using digital computers. But you don’t need to. Fractals are actually fascinatingly ubiquitous, and you can produce them in lots of different ways – not just digitally.
  •  
    "In this video, what they've done is set up three screens, in a triangular pattern, and set them to display the input from a camera.. If you watch, they're able to manipulate it to get Julia fractals, Sierpinski triangles, and several other really famous fractals. "
  •  
    Fractals without a Computer
Gregory Louie

Students tap into technology - Pittsburgh Tribune-Review - 1 views

  • use their laptops to read "Don Quixote" and Dante's "Divine Comedy" on the Internet
  • Technology is the wave of the future
  • a computer program
  • ...7 more annotations...
  • "Most jobs require computers," noted Brittnee Stephen, 16, as she assembled a slideshow on her HP Mini laptop. "It's good that we're learning it now."
    • Ed Webb
       
      The technology is still very visible, if students are talking in terms of 'computers' rather than the skills involved. We don't talk about 'paper' but writing, critical reading etc. Yet here the platform itself is emphasized. Early days, I guess.
  • has just begun incorporating technology
    • Ed Webb
       
      Uh, no. They have been using 'technology' forever, in the form of, say, books.
  • students seem far more interested in learning via interactive technology than they had been with a chalkboard and an overhead projector
    • Ed Webb
       
      Well, the problem here is that some of that can be ascribed to novelty. Once every class uses 'interactive technology' (yuk) then how much difference will there be? The tools are great. All tools can be useful. But focus on the pedagogy, people!
    • Scott Merrick
       
      I'm for focusing on understanding. I love the word "pedagogy" because most lay people don't really know what it entails--theory (which can be anything institutional or community deems effective or correct), practice (which, as we know, can be summed up with the phrase "mileage will vary"), and some third thing which if I could come up with it I'd have the magic 3 elements in an effective argument. I think effective tools used effectively by effective teachers (there! 3 uses of one adjective!) will remain effective as long as they are used to promote understanding. No argument here, Ed, just sayin'...
    • Ed Webb
       
      Perhaps the magic third thing would be 'attitude' or 'state of mind'? Alternatively, perhaps another of those non-transparent terms, 'praxis'. The point I was trying to make, of course, was that it ain't what you use, it's the way that you use it.
  • "I think the kids that have turned school off because it's boring to them will come here and see something familiar,"
    • Ed Webb
       
      Boring and familiar seem to me to be closely related, not opposites. I suspect that often when students say their learning environment is 'boring' they mean 'challenging'.
  • Educational technology does not come cheaply
    • Ed Webb
       
      The cost of books is astronomical!
  • "Learning is changing,"
    • Ed Webb
       
      Was it EVER the case that we could "just deliver a lecture and expect all the kids to get it"?
    • Gregory Louie
       
      Computer technology in my classroom has revolutionized my teaching of biology. Instead of static images on a printed page, or talk and chalk, my students can manipulate 3-D images of DNA, RNA and proteins. These have even been embedded in a research-based learning progression that leads the students to a robust understanding of the foundational elements of molecular literacy. 1. Atoms and molecules are constantly in motion. (A visualization is not possible on a 2-3 printed page.) 2. All atoms and molecules have a 3-D structure that determines how they interact with other particles. 3. Charges and other intermolecular forces play a role in atomic and molecular interactions. My students can see these for themselves, change the number of particles in a box, or the distribution of charge on a large particle or the temperature of the box and other thought experiments which they can follow in real-time. There is no way, I could do that without the computer!
Maggie Tsai

The Classroom » Using Diigo for Organizing the Web for your Class - 13 views

  • Using Diigo for Organizing the Web for your Class 31 07 2007 A good friend of mine, Randy Lyseng, has been telling people of the tremendous power and educational value that can be gained from social bookmarking in the classroom. His personal favourite is Diigo. My preference is a social bookmarking tool called http://diigo.com. With diigo, you can highlight, add stick notes and make your comments private or public. (Randy Lyseng, Lyseng Tech: Social Bookmarking, November 2006) After listening to Randy praise Diigo at every opportunity, I finally started playing with the site (and corresponding program, more on that in a bit) this summer (I know Randy - I’m slow to catch on…)As I started to play with the system, my mind started reeling with all the possibilities. First off, like any other social bookmarking tool, Diigo allows you to put all your favorites/bookmarks in one “central” location. Students can access them from ANY computer in the world (talk about the new WWW: whatever, whenever, where ever). They just open up your Diigo page, and there are all the links. But that’s just the tip of the iceberg. Diigo’s power lies in it’s group annotations. That’s right, people can now write in the margins of webpages. You can highlight passages of interest, write notes, and even write a blog entry directly from another webpage, quoting passages right from the original text. Sounds great - but to do all that it must be complicated right? Nope. To use these advanced features all you need to do is run the Diigo software. This can either be done using a bookmarklet or by downloading and installing the Diigo toolbar. While both have basically the same features, the toobar is less finicky, and allows you to use contextual menus to access features quickly. I also find the toolbar’s highlighting and sticky notes to be easier to read. Ok fine… I can leave notes on webpages - so what? Here’s an example. I’m thinking about having my 7B’s record radio plays. I’ve looked them up online and found many scripts from all the old classics available. However many also contain the old endorsements from tobacco and other companies. So I go to a play that I’d like to my students to record and highlight the old commercial. If they’re using diigo when they access this page they’ll see the same text highlighted in pink, and when they mouse over the highlighted text they’ll get a hidden message from me - “I’d like you to write a new advertisement for this section. What other advertisement do you think we could write for here? Write an ad for a virtue or trait that you think is important. For example - “Here’s a news flash for every person in Canada. It’s about a sensational, new kind of personality that will make you the envy of all those around you. It’s call trustworthiness. Why with just a pinch of this great product….” They now have a writing assignment to go along with the recording of the radio play. Adding assignments is just one possibility. You can ask questions about the site, or have students carry on conversations about the text. Perhaps about the validity of some information. These notes can be made private (for your eyes only), public, or for a select group of people. You could use the same webpage for multiple classes, and have a different set of sticky notes for each one! Diigo will also create a separate webpage for each group you create, helping you organize your bookmarks/notes further! This technology is useful for any class, but I think is a must have for any group trying to organize something along the lines of the 1 to 1 project. I’m hoping to convince all the core teachers to set up a group page for their classes, and organize their book marks there! I’ve already started one for my 7B Language Arts Class! One of the first questions I was asked when I started looking at this site, and more importantly at the bookmarklets and toolbar was is it secure? Will it bring spyware onto our systems? How about stability? I’ve currently been running the Diigo bookmarklet and toolbar on 3 different browsers, Explorer, Firefox, and Safari (sorry, there’s no Safari toolbar yet), across 4 different computers and 2 different platforms with no problems. I’ve also run every virus and spyware scan I can think of, everything checks out clean. I’ve also done an extensive internet check, and can’t find any major problems reported by anyone else. To my mind it’s an absolutely fantastic tool for use in the classroom. Thanks Diigo! And thanks Randy for pointing me in the right direction!
Ed Webb

Please Sir, how do you re-tweet? - Twitter to be taught in UK primary schools - 2 views

  • The British government is proposing that Twitter is to be taught in primary (elementary) schools as part of a wider push to make online communication and social media a permanent part of the UK’s education system. And that’s not all. Kids will be taught blogging, podcasting and how to use Wikipedia alongside Maths, English and Science.
  • Traditional education in areas like phonics, the chronology of history and mental arithmetic remain but modern media and web-based skills and environmental education now feature.
  • The skills that let kids use Internet technologies effectively also work in the real world: being able to evaluate resources critically, communicating well, being careful with strangers and your personal information, conducting yourself in a manner appropriate to your environment. Those things are, and should be, taught in schools. It’s also a good idea to teach kids how to use computers, including web browsers etc, and how those real-world skills translate online.
  • ...8 more annotations...
  • I think teaching kids HOW TO use Wikipedia is a step forward from ordering them NOT TO use it, as they presently do in many North American classrooms.
  • Open Source software is the future and therefore we need to concentrate on the wheels and not the vehicle!
  • Core skills is very important. Anyone and everyone can learn Photoshop & Word Processing at any stage of their life, but if core skills are missed from an early age, then evidence has shown that there has always been less chance that the missing knowledge could be learnt at a later stage in life.
  • Schools shouldn’t be about teaching content, but about learning to learn, getting the kind of critical skills that can be used in all kinds of contexts, and generating motivation for lifelong learning. Finnish schools are rated the best in the world according to the OECD/PISA ratings, and they have totally de-emphasised the role of content in the curriculum. Twitter could indeed help in the process as it helps children to learn to write in a precise, concise style - absolutely nothing wrong with that from a pedagogical point of view. Encouraging children to write is never a bad thing, no matter what the platform.
  • Front end stuff shouldn’t be taught. If anything it should be the back end gubbins that should be taught, databases and coding.
  • So what’s more important, to me at least, is not to know all kinds of useless facts, but to know the general info and to know how to think and how to search for information. In other words, I think children should get lessons in thinking and in information retrieval. Yes, they should still be taught about history, etc. Yes, it’s important they learn stuff that they could need ‘on the spot’ - like calculating skills. However, we can go a little bit easier on drilling the information in - by the time they’re 25, augmented reality will be a fact and not even a luxury.
  • Schools should focus more on teaching kids on how to think creatively so they can create innovative products like twitter rather then teaching on how to use it….
  • Schools should focus more on teaching kids on how to think creatively so they can create innovative products like twitter rather then teaching on how to use it….
  •  
    The British government is proposing that Twitter is to be taught in primary (elementary) schools as part of a wider push to make online communication and social media a permanent part of the UK's education system. And that's not all. Kids will be taught blogging, podcasting and how to use Wikipedia alongside Maths, English and Science.
Tim Cooper

TEDxGeorgiaTech - Mark Guzdial - 21st Century Literacy includes Computing for Everyone ... - 16 views

  •  
    Interesting outlook on why teaching computer science is applicable and needed for everyone. Guzdial does a lot of work with Squeak (which is a forerunner of Scratch).
trisha_poole

Education Week: Effective Use of Digital Tools Seen Lacking in Most Tech.-Rich Schools - 100 views

  • Those factors include integrating technology into intervention classes; setting aside time for professional learning and collaboration for teachers; allowing students to use technology to collaborate; integrating technology into core curricula at least weekly; administering online formative assessments at least weekly; lowering the student-to-computer ratio as much as possible; using virtual field trips at least monthly; encouraging students to use search engines daily; and providing training for principals on how to encourage best practices for technology implementation. Only about 1 percent of the 1,000 schools surveyed by Project RED followed all those steps, and those that did “saw dramatic increases in student achievement and had revenue-positive experiences,” Ms. Wilson said.
    • Adam Truitt
       
      Data drives decisions....or at least should
  • cut their photocopying and printing budgets in half.
    • London Jenks
       
      The "paperless classroom" or the "not so much paper as before" classroom
    • trisha_poole
       
      This is similar to what is happening in Australia, particularly NSW, I think.
  • ...1 more annotation...
  • requires leadership,professional development, collaboration, and new forms of pedagogy and assessment
  •  
    Most schools that have integrated laptop computers and other digital devices into learning are not following the paths necessary to maximize the use of technology in ways that will raise student achievement and help save money, a report concludes."We all know that technology does things to improve our lives, but very few schools are implementing properly," said Leslie Wilson, a co-author of the study, "The Technology Factor: Nine Keys to Student Achievement and Cost-Effectiveness," released last month. She is the chief executive officer of the Mason, Mich.-based One-to-One Institute, which advocates putting mobile-computing devices into the hands of all students.
Kris Cody

The Reading Brain in the Digital Age: The Science of Paper versus Screens: Scientific A... - 103 views

  • prevented them from zooming out to see a neighborhood, state or country
    • Monica Williams-Mitchell
       
      This explains, in real terms, why I've had so much struggle with online reading! Very interesting article.
  • Because of these preferences—and because getting away from multipurpose screens improves concentration—people consistently say that when they really want to dive into a text, they read it on paper
    • Kris Cody
       
      This is backed up by a recent article: Faris, Michael J., and Stuart A. Selber. "E-Book Issues In Composition: A Partial Assessment And Perspective For Teachers." Composition Forum 24.(2011): ERIC. Web. 31 Mar. 2013.
  • Surveys and consumer reports also suggest that the sensory experiences typically associated with reading—especially tactile experiences—matter to people more than one might assume.
  • ...14 more annotations...
  • When reading a paper book, one can feel the paper and ink and smooth or fold a page with one's fingers; the pages make a distinctive sound when turned; and underlining or highlighting a sentence with ink permanently alters the paper's chemistry.
  • discernible size, shape and weight.
  • Although many old and recent studies conclude that people understand what they read on paper more thoroughly than what they read on screens, the differences are often small. Some experiments, however, suggest that researchers should look not just at immediate reading comprehension, but also at long-term memory.
  • When taking the quiz, volunteers who had read study material on a monitor relied much more on remembering than on knowing, whereas students who read on paper depended equally on remembering and knowing.
  • E-ink is easy on the eyes because it reflects ambient light just like a paper book, but computer screens, smartphones and tablets like the iPad shine light directly into people's faces.
  • the American Optometric Association officially recognizes computer vision syndrome.
  • People who took the test on a computer scored lower and reported higher levels of stress and tiredness than people who completed it on paper.
  • Although people in both groups performed equally well on the READ test, those who had to scroll through the continuous text did not do as well on the attention and working-memory tests.
  • Subconsciously, many people may think of reading on a computer or tablet as a less serious affair than reading on paper. Based on a detailed 2005 survey of 113 people in northern California, Ziming Liu of San Jose State University concluded that people reading on screens take a lot of shortcuts—they spend more time browsing, scanning and hunting for keywords compared with people reading on paper, and are more likely to read a document once, and only once.
  • When reading on screens, people seem less inclined to engage in what psychologists call metacognitive learning regulation—strategies such as setting specific goals, rereading difficult sections and checking how much one has understood along the way
  • Perhaps she and her peers will grow up without the subtle bias against screens that seems to lurk in the minds of older generations.
  • They think of using an e-book, not owning an e-book,"
  • Participants in her studies say that when they really like an electronic book, they go out and get the paper version.
  • When it comes to intensively reading long pieces of plain text, paper and ink may still have the advantage. But text is not the only way to read.
  •  
    it is difficult to see any one passage in the context of the entire text.
  •  
    it is difficult to see any one passage in the context of the entire text.
Nigel Coutts

Teaching mathematicians shouldn't be like programming a computer - The Learner's Way - 11 views

  •  
    Traditional methods of teaching maths have more in common with how we programme a computer that what we might do if we wanted to engage our students in mathematical thinking. We shouldn't be overly surprised then when our students consider mathematics to be all about learning a set of rules that they need to apply in the right order so as to output the correct response. But is there a better way?
1 - 20 of 97 Next › Last »
Showing 20 items per page