Group items tagged

One of the thinking moves that we hope our students will confidently engage with is centred around the disposition of uncovering complexity. As we endeavour to shift our students towards a deeper understanding, the capacity to uncover complexity is a vital step. However, the ability to uncover complexity is itself complex and an excellent example of a skill that is best achieved when considered as a disposition. 

"To prepare students for college and careers, reading comprehension needs to be a part of all subject areas. Students cannot master complex scientific concepts, comprehend historical treaties, or follow complex logic problems without it. Content areas deal with complex texts that require analytical reading skills. Students in social studies, science, and math classes have to be able to compare and synthesize ideas, and use specific academic vocabulary. In 2002, Fisher, Frey, and Williams compiled this list of literacy strategies for the content areas. Today, we're going to add to the list and suggest certain reading comprehension strategies to try in your content area classroom"

The potential for reliably predicting the outcome of any change effort is surely difficult if not even impossible once the number of influences becomes large. Acknowledging the complexity that exists and seeing the potential for growth, creativity and innovation that can exist within an organisation at 'the edge of chaos' are useful strategies as schools face a period of unprecedented change. 

How to Ensure that Making Leads to Learning http://t.co/jqjmk9NJlo #makered

This unavoidable and irreducible complexity means that schools are challenging place to study, to understand and to manage change within. Even for the teacher who spends everyday inside the school there is so much going on that unguided observations and the plans based upon them come with no guarantee of success. - We need a lens and a lever to manage this complexity. -  Such a lens is offered by the 'cultural forces'.

"Inquiry-based learning is more than asking a student what he or she wants to know. It's about triggering curiosity. And activating a student's curiosity is, I would argue, a far more important and complex goal than the objective of mere information delivery. Nevertheless, despite its complexity, inquiry-based learning can be somehow easier on teachers, too. True, it's seemingly easier because it transfers some responsibilities from teachers to students, but it's really easier because releasing authority engages students. Teachers who use inquiry-based learning combat the "dunno" -- a chronic problem in student engagement.  Let's face it, when you ask a student something like, "What do you want to know about _______?" you are often met with a shrug, or a, "dunno." Inquiry-based learning, if front-loaded well, generates such excitement in students that neurons begin to fire, curiosity is triggered, and students can't wait to become experts in answering their own questions."

" Apple has long touted its device's assistive technology as a powerful tool for the educational development of physically and mentally disabled children. The iPad's touch screen makes it easier to manipulate than more traditional educational tools. For children with autism, "the iPad is not a toy, but a tool that works best when there is a 'team effort' between parents and therapists encouraging its proper use," said Marc Reisner, co-founder of Reach for the APPs. "Our goal is to provide schools with iPads so they can reach every child on the autistic spectrum." Reach for the APPs built their site with an initial donation from Managed Digital. Now, they're seeking out donations of money and/or iPads from both individuals and corporations to propel the program forward. According to reports from the Center for Disease Control and Prevention, 1-in-88 children have some form of autism, up 78 percent from just a decade ago. The demand for augmentative communications devices is growing. But the schools can't meet the demand, so the children are losing valuable time during critical developmental years. Lois Brady, a speech language pathologist and assistive technology specialist, said apps can help develop fine-motor skills, which will in turn make functions like writing and manipulating small objects easier for the students. "I have spent years working with the most challenging students that are considered profoundly disabled," she said. "And I have seen some small miracles when I introduce the iPad into our therapy, as the children have made huge gains in attention, focus, communication, language and literacy skills." Some experts also say that the iPad can lessen symptoms of autistic disorders, helping children deal with life's sensory overload. Brady will be contributing content to the Reach for the APPs website to inform therapists about the latest-and-greatest apps for children all over the autistim spectrum. Apps must be tailor

"Saving the Sports Complex Algebra Project"

Teresa Penedo posted this item in the #change11 Facebook group. The one-hour video tells us "most of what we think we know about technology in general is false." According to Andrew Feenberg, "Our error stems from the everyday conception of things as separate from each other and from us. In reality they belong to an interconnected network the nodes of which cannot exist independently qua technologies." This leads to ten 'paradoxes of technology': "1. The paradox of the parts and the whole: The apparent origin of complex wholes lies in their parts but in reality the parts find their origin in the whole to which they belong. 2. The paradox of the obvious: What is most obvious is most hidden. 3. The paradox of the origin: behind everything rational there lies a forgotten history. 4. The paradox of the frame: Efficiency does not explain success, success explains efficiency. 5. The paradox of action: In acting we become the object of action. 6. The paradox of the means: The means are the end. 7. The paradox of complexity: Simplification complicates. 8. The paradox of value and fact: Values are the facts of the future. 9. The democratic paradox: The public is constituted by the technologies that bind it together but in turn it transforms the technologies that constitute it. 10. The paradox of conquest: The victor belongs to the spoils." from Stephen Downes OL Daily

"This 'wheel' of AAC Apps by Sally Millar and Gillian McNeill of CALL Scotland, provides a categorised guide to iPad Apps for people with complex communication support needs, who may need to use some form(s) of Augmentative and Alternative Communication (AAC)."

"From Papert's book The Children's Machine: "LOGO was fueled from the beginning by a Robin Hood vision of stealing programming from the technologically privileged (what I would in those early days in the 1960s have called the military-industrial complex) and giving it to children." Who are the "technologically privileged" these days? And are "learn to code" efforts part of a social justice vision, a Robin Hood-like act of stealing programming from them? Or rather, which computer science education efforts have equity and agency at their core, and which might be more about conscripting cheap and compliant labor for today's version of that complex?"

"It's often easy to get stuck into a narrow view of what a particular field of study entails, but as Dominic Walliman reveals in his impressive science infographics, there's much more than meets the eye when thinking of particular STEM subjects. Walliman demonstrates the diversity and complexity of biology, chemistry, computer science, physics, and mathematics in visual maps that explore the breadth of each field. Walliman, who also created animated videos exploring his science infographics, manages to pack all the shades of each complex field on one page. For instance, the Map of Mathematics travels from the origins and foundations of the field to the differences between pure mathematics and applied mathematics. Likewise, chemistry is divided between rules and different sub-topics like biochemistry and inorganic chemistry, with fun illustrations to clearly show what falls underneath each area. Whether you are a scientist who feels like people never quite get what you do or a student who can't put their finger on how they might use their math or science degree, Walliman's infographics will come in handy. Consider them roadmaps to possible careers or cheat sheets to figuring out how quantum physics is related to the theory of relativity. Best of all, by studying the visual maps, it becomes easy to see how all these scientific fields overlap and fit together like a puzzle."

"Close Read Complex Text, and Annotate with iPads--Part 2"

"A key goal of maker-centered education is to help young people and adults feel empowered to build and shape their worlds. Acquiring this sense of maker empowerment is strongly supported by learning to notice and engage with the designed dimension of one's physical and conceptual environment-in other words, by having a sensitivity to design. This sensitivity develops when young people and adults have opportunities to: look closely and reflect on the design of objects and systems, explore the complexity of design, and understand themselves as designers of their worlds."

The Common Craft Show is a series of short explanatory videos by Lee and Sachi LeFever. Our goal is to fight complexity with simple tools and plain language. We call our format "paperworks" and publish a new video about once a month.

Within this page,the complex processes involved in reading comprehension are divided into three categories (much like the National Reading Panel Report). The categories include vocabulary instruction, text comprehension instruction, and teacher preparation and comprehension strategies instruction. You'll also find useful websites that students can visit to practice their use of comprehension strategies with fiction and non-fiction texts at a variety of reading levels.

"If interdisciplinary project-based learning is a goal for you and your students this school year, you might want to start with questions that put a premium on place. For example: Where are bicycle accidents most likely to happen in your community? Where's the best spot to watch for migrating Monarch butterflies? What's the safest evacuation route in the event of a natural disaster? How have the neighborhoods of New Orleans changed after Hurricane Katrina? To investigate such questions, students would need to gather and analyze data, look for patterns, think critically, and communicate their understanding with maps and other visual aids. In the process, they would also make connections across content areas and deepen their geo-literacy skills."

For educators, parents and learners Carol Dweck's research on the benefits of a Growth Mindset is naturally appealing. Those who have a growth mindset achieve better results than those who don't, are more resilient and accept challenge willingly. After two years of incorporating a growth mindset philosophy we are finding that the reality of shifting a student's disposition away from a fixed mindset and then maintaining a growth mindset is significantly more complex than at first imagined.

"For educators, parents and learners Carol Dweck's research on the benefits of a Growth Mindset is naturally appealing. Those who have a growth mindset achieve better results than those who don't, are more resilient and accept challenge willingly. In response schools have embraced the notion and classroom walls are adorned with posters identifying the characteristics of growth versus fixed mindsets. Teachers make efforts to shift their students towards a growth mindset and parents consider how they may assist in the process. After two years of incorporating a growth mindset philosophy we are finding that the reality of shifting a student's disposition away from a fixed mindset and then maintaining a growth mindset is significantly more complex than at first imagined. Numerous forces and influences play a role and progress is unlikely to match a linear curve. Where schools have made steps in the right direction, is in raising awareness of the two mindsets. In this regard the placement of posters and discussion around the role that our mindset has in our learning are steps in the right direction. Demonising the fixed mindset is perhaps an unnecessary step and our students may be better served by understanding that we all have times when we fall into a fixed mindset. Education of how we may recognise such times and apply strategies of mindfulness and metacognition would avoid shifting already vulnerable learners on to the circle of shame. Awareness is however far form the end of the journey towards reaping the benefits of a Growth Mindset."