In the global perspective, the Finnish education system seems to be a paradox. When much of the rest of the world is implementing more oversight of schools to assure teachers meet specific goals, lengthening the school day, toughening academic standards, and increasing homework, Finnish children continue to enjoy a relatively short school day, a broad curriculum, and a light homework load. In addition, Finnish children do not attend private tutoring sessions or spend any time preparing for standardized tests, as so many of their peers around the world must.
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in title, tags, annotations or urlPasi Sahlberg - The Finnish Paradox - 0 views
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Perhaps the most surprising part of the Finnish educational philosophy is the central role of play in children’s lives, both in and out of school. Formal learning doesn’t start before the first grade when children are seven years old. Before that, children spend their time in play to develop a sense of independence and responsibility, and to learn about themselves and others. In the early years of elementary education, children furthermore learn to read and do math through various forms of play, music, and drama. The old adage of “less is more” is carried out every day in Finnish schools, as I describe in “Finnish Lessons: What can the world learn from educational change in Finland” (2011).
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Finland’s success is a result of finding its own way of change rather than doing more of the same than others. This is particularly true in enhancing educational quality and equity. Some foreign observers claim that Finnish educational success results from the country’s smallness, cultural homogeneity, and wealth. Those thinking this way often fail to distinguish the Finnish way from the global education reform movement (or GERM) that sees competition, standardization, frequent testing, and privatization as the most effective drivers of change.
An Edtech Bill of Rights | EdSurge News - 0 views
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Edtech Priorities for Educators: No Shiny Toys! In addition to the above issues, educators clearly stated that the purpose of edtech should never be to replace a teacher. Instead, edtech products should: Relieve administrative burdens; Increase the efficacy of teachers; Deepen the relation among students and teachers; Embed assessment directly into daily learning experience; Amplify the reach of effective teachers; Empower students to become creators; And ultimately, keep the humanity in education and create more equality of opportunities.
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Here’s a combined list from all 18 groups: The best interests of students must always be first and foremost. Tools should fill a REAL need for teaching/learning (not solutions in search of a problem). Ask teachers and talk to administrators at every stage of the design process. Have open, balanced conversations among all stakeholders. The introduction of edtech should include ongoing targeted meaningful staff development that is preferably teacher led. Student data must be secure: edtech companies should be open and clear about their use of data and information. Education technology should continually be tested in classrooms. The larger community should be included in the selection and implementation of edtech. If solutions claim to be research-based, they need to be truly research based. We need to know more about what works based on real data. Access should be reasonable and appropriate for all stakeholders. Compensate teachers who are product developers for their works. Similarly, compensate educators for providing extensive feedback and help with product development. Structure the ways teachers can provide feedback and interact with new tools as forms for professional development. Research should include recommendations that address the socio-emotional implications of using technology products. Districts should provide thought leadership on their theory of learning to help drive appropriate product development that aligns with district priorities.
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Everything should revolve around the learner.
What Students Will Learn In The Future - 0 views
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ust as advances in technology enabled the growth of science, the extremely rapid growth of technology we’re experiencing today is impacting our perspectives, tools, and priorities now. But beyond some mild clamor for a focus on “STEM,” there have been only minor changes in how we think of content–this is spite of extraordinary changes in how students connect, access data, and function on a daily basis.
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What kind of changes might we expect in a perfect-but-still-classroom-and-content-based world? What might students learn in the future? Of course any response at all is pure speculation, but if we draw an arc from classical approaches to the Dewey approach to what might be next–factoring in technology change, social values, and criticisms of the current model–we may get a pretty decent answer. This assumes, of course a few things (all of which may be untrue): 1. We’ll still teach content 2. That content will be a mix of skills and knowledge 3. Said skills and knowledge will be thematically arranged into “content areas”
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The Content Of The Future: 8 Content Areas For Tomorrow’s Students 1. Literacy Big Idea: Reading and writing in physical & digital spaces Examples of traditional ideas and academic content areas included: Grammar, Word Parts, Greek & Latin Roots, The Writing Process, Fluency; all traditional content areas 2. Patterns Big Idea: How and why patterns emerge everywhere under careful study Examples of traditional ideas and academic content areas include: Grammar, Literature, Math, Geometry, Music, Art, Social Studies, Astronomy 3. Systems Big Idea: The universe—and every single thing in it–is made of systems, and systems are made of parts. Examples of traditional ideas and academic content areas include: Grammar, Law, Medicine, Science, Math, Music, Art, Social Studies, History, Anthropology, Engineering, Biology; all traditional content areas by definition (they’re systems, yes?) 4. Design Big Idea: Marrying creative and analytical thought Examples of traditional ideas and academic content areas include: Literature, Creativity, Art, Music, Engineering, Geometry 5. Citizenship Big Idea: Responding to interdependence Examples of traditional ideas and academic content areas include: Literature, Social Studies, History; Civics, Government, Theology 6. Data Big Idea: Recognizing & using information in traditional & non-traditional forms Examples of traditional ideas and academic content areas include: Math, Geometry, Science, Engineering, Biology; 7. Research Big Idea: Identifying, evaluating, and synthesizing diverse ideas Examples of traditional ideas and academic content areas include: English, Math, Science; Humanities 8. Philosophy Big Idea: The nuance of thought Examples of traditional ideas and academic content areas include: Ethics, Literature/Poetry, Art, Music; Humanities
Multitasking while studying: Divided attention and technological gadgets impair learning and memory. - 2 views
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For a quarter of an hour, the investigators from the lab of Larry Rosen, a psychology professor at California State University–Dominguez Hills, marked down once a minute what the students were doing as they studied. A checklist on the form included: reading a book, writing on paper, typing on the computer—and also using email, looking at Facebook, engaging in instant messaging, texting, talking on the phone, watching television, listening to music, surfing the Web. Sitting unobtrusively at the back of the room, the observers counted the number of windows open on the students’ screens and noted whether the students were wearing earbuds.
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tudents’ “on-task behavior” started declining around the two-minute mark as they began responding to arriving texts or checking their Facebook feeds. By the time the 15 minutes were up, they had spent only about 65 percent of the observation period actually doing their schoolwork.
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The media multitasking habit starts early. In “Generation M2: Media in the Lives of 8- to 18-Year-Olds,” a survey conducted by the Kaiser Family Foundation and published in 2010, almost a third of those surveyed said that when they were doing homework, “most of the time” they were also watching TV, texting, listening to music, or using some other medium. The lead author of the study was Victoria Rideout, then a vice president at Kaiser and now an independent research and policy consultant. Although the study looked at all aspects of kids’ media use, Rideout told me she was particularly troubled by its findings regarding media multitasking while doing schoolwork.
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Professional Learning Communities Still Work (If Done Right) - Education Week Teacher - 0 views
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see themselves as members of strong collaborative cultures saw significant benefits in their day-to-day work in key instructional areas, such as planning lessons, developing teaching skills and content, and aligning curriculum and expectations.
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job-embedded professional development occurs when educators are members of high-performing professional learning communities
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A professional learning community is not simply a meeting: It is an ongoing process in which educators work collaboratively in recursive cycles of collective inquiry and action research in order to achieve better results for the students they serve.
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The Company Chaos You Don't Know You're Creating - 1 views
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define organizational chaos. You know exactly what I am talking about: shifting priorities, unclear direction, unstable processes, unhappy customers, disengaged employees.
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I'm also not talking about energizing chaos—the type of externally driven change from customers and competitors that stimulates innovation, reduces complacency,
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By reducing the organizational chaos that is completely within your control, you not only establish a solid foundation on which excellence can be built, but you also free up the psychic energy and resources you need to cope with the truly unforeseen circumstances
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How Teachers Can Run Classrooms Like 'Lean Startups' | EdSurge News - 0 views
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Do students recognize that they have a need or dearth that you are trying to fill or address? If there is a way to address that need, will students buy into it? Knowing what you know, can you fill that need?
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These answers should help you decide on a hypothesis—which is eerily similar to a lesson objective, or a SWBAT (Students Will Be Able To) statement. Except, in this case, you’re adding an action (A) before the objective (B), in the form of “If I do A, then the student will be able to B.”
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