Difference between revisions of "Talk:Education"
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− | + | Learning to think for ones-self. | |
− | + | What is being explained must be made relevant to the person consuming it. | |
+ | :The beauty of adaptive software is that this happens automatically. Introducing technology that allows a student to roam around the landscape of knowledge gives them power to direct their own learning. When they are directing their own learning, it will be more relevant to them than when it is given to them by someone else. --[[User:Balatro|Balatro]] 20:07, 21 October 2013 (CEST) | ||
− | + | *Some things can be learned theoretically (e.g. most subjects currently taught in schools). These can be done by the open-content online learning described. | |
+ | *Other subjects require practical learning: cooking, dance or anything physical. Skill-acquisition is different from theoretical learning and cannot be taught online. | ||
+ | *Other things, like meditation, require repeated experience, but are not exactly skills - they are 'drills' | ||
− | + | ==Real-world examples== | |
+ | The article should stress that this is already being implemented and getting great results. | ||
− | + | *KIPP Comineza in Los Angeles rotates students among computer stations and small-group instruxion. (By putting half the students at computers at a given time, you effectively half student:teacher ration.) 50% of the kids are on food stamps, 90% Latino, inner-cty urban LA, yet some of the best test scores in California. | |
− | + | *Navigator Schools. Gilroy Prep founded in 2011. Interestingly, when a student rotates is not on a schedule, but on their data. 67% of the students aren't fluent in English, yet they too have some of the highest test scores in California. | |
− | + | *Summit Public Schools - https://en.wikipedia.org/wiki/Summit_Public_Schools - Interresting implementation of mastery-based assessment: instead of doing the lectures, then the test, the test is given up front; this way, if the student already knows it all, they can skip the lectures. Different campuses with different income levels. | |
− | + | ||
− | --- | + | ==Hands-on learning== |
+ | Getting students to devise and undertake projects like designing and creating a new invention, social entrepreneurship. Teaches actual life skills of organization and getting-shit-done. | ||
− | + | This actually enables the sort of cross-fertilization discussed above, because it is when you have to do something practical, some project, and you have to draw on all your resources, that you see the benefits of diverse knowledge. | |
− | + | Studio Schools - http://studioschoolstrust.org/studio-schools/what-studio-school-0 - have teenagers do real-world projects for NGOs and businesses | |
− | + | ==Augmented reality== | |
+ | Augmented reality and virtual reality will be applied to education in the future. We already have virtual reality simulators to train pilots etc. Imagine learning something like cooking using a computer that can tell what you are doing at a given moment and displays information and advice relevant to the situation. | ||
− | + | [http://www.youtube.com/watch?v=dj7f_PEknK4 Video of augmented reality being used to visualize chemistry]. Chemistry is more open to this approach than most subjects. | |
− | + | == Links == | |
+ | *[http://q2l.org ''Quest to Learn''] - "a school that uses the underlying design principles of games to create highly immersive, game-like learning experiences". | ||
+ | * [http://www.physorg.com/news196868176.html Article about 'Khan Academy'] | ||
+ | * http://www.kipp.org - has a system modelled from excellent teachers to replicate their methods. Seems to get very good results | ||
+ | * Not open-source as far as I'm aware, but an interesting free collection of university lectures in one repository: http://academicearth.org | ||
+ | * http://www.uknow.gse.harvard.edu/ Lots of information and ideas about how to make education better | ||
+ | * http://sfbrightworks.org | ||
− | + | ==Environment== | |
+ | 'Biophilia' I think there are studies linking the presence of natural elements (potted plants etc.) to learning. Find references. | ||
− | + | Marian Cleeves Diamond's studies on neural 'enrichment' from a stimulating environment might be relevant here [http://education.jhu.edu/newhorizons/neurosciences/articles/diamond/] | |
− | This | + | '''Nutrition''': [[Food|This page]] is as important to education as any. 100s of studies link sugar, HFCS etc. to cognitive impairment and behavioural problems. |
− | - | + | ===Sound=== |
+ | http://www.ted.com/speakers/julian_treasure.html < This gentleman has a very unique perspective on things. He's given four TED talks on how sound affects humans physiologically, emotionally etc. This is highly relevant to education. The take-home points of his message are: | ||
+ | *Minimize noise with sound insulation. Noise (i.e. anything other than the teaching message) creates cognitive load, distraction and stress. '''Problem''': Some collaborative learning environments might be noisy. | ||
+ | *Keep {{wp|Reverberation#Reverberation_time|reverberation time}} time low (0.4 seconds or below) to make sound clearer and less echoey. This means using [http://www.sae.edu/reference_material/pages/Coefficient%20Chart.htm materials with high absorption coefficients] in classrooms. | ||
+ | *Visual and auditory focus should face the same direction. The message they deliver should be congruent and synchronous. (This is not actually a problem in classrooms, where the teacher stands and talks at the front.) | ||
+ | *Sometimes have just silence. Sometimes have birdsong, water sounds, wind sounds, and music. Schools should have good sound systems playing calming ambient sound and music at the right times. Julian Treasure says sounds at 12 cycles per minute are particularly restful. | ||
− | + | [https://docs.google.com/viewer?a=v&q=cache:PbF6TVn9Gy4J:www.ndcs.org.uk/document.rm%3Fid%3D7057+&hl=en&pid=bl&srcid=ADGEESilLyRx6nWTmt6NTKGstn_v1_x0cSiczfqAQNPWcyPGtwp3ZZJ7sqBcxdQO_dPgYUnBiDaOLbMJFP3ayuJ6s6pGue4T4xPDV101bapqMul5Z8ZY9ehmC50n0pm5X1EW1K1vWpJ0&sig=AHIEtbTe2mSJpI27fBo_RGdbSEuIxFmfgQ 'The Essex Study'] | |
− | == | + | ===Light=== |
+ | Overillumination is well-proven to cause stress. Stress is well-proven to cause poor learning. | ||
− | + | [http://www.eric.ed.gov/PDFS/ED470979.pdf page 7] cites a finding that those classes with the most daylight advanced 20% more in a year of math and 26% more in a year of reading. | |
− | + | ||
− | + | 'Focal glow' to direct attention. | |
− | + | ||
+ | The spectrum of ambient light has physiological and behavioral effects that are relevant to learning. [http://ldx.sagepub.com/content/9/7/417.short This study] replaced fluorescent lights with full-spectrum lights: "A dramatic improvement in behavior was demonstrated in hyperactive children." | ||
+ | |||
+ | ===Air quality=== | ||
+ | Indoor plants would improve air quality, decrease VOCs and increase oxygen concentration. See [http://www.eric.ed.gov/PDFS/ED470979.pdf page 2] - 'Linking IAQ [indoor air quality] to Student Performance' | ||
== Cognitive skills == | == Cognitive skills == | ||
Line 50: | Line 72: | ||
* Social skills | * Social skills | ||
* Visualization skills | * Visualization skills | ||
+ | * Concentration | ||
+ | * General Semantics. This stops people getting hoodwinked both by illogical theories in and by the irrational thought-loops that create depression, anxiety, compulsion etc. {{em}} literally "science and sanity" | ||
+ | * Jaeggi-Bushkuehl 'dual ''n''-back training'. [http://www.pnas.org/content/105/19/6829.full Study] shows that it increases 'fluid intelligence' in a general way (not merely task-specific). [http://cognitivefun.net/test/5 Play online here]. | ||
== Applying neuroscience to education == | == Applying neuroscience to education == | ||
Line 55: | Line 80: | ||
* [http://www.arrowsmithschool.org/ The Arrowsmith School] is a step in the right direction; applying neuroscience to understand and remedy weaknesses in cognition, with a program that is tailored to the individual student. | * [http://www.arrowsmithschool.org/ The Arrowsmith School] is a step in the right direction; applying neuroscience to understand and remedy weaknesses in cognition, with a program that is tailored to the individual student. | ||
+ | |||
+ | ==Holistic/ systematic/ comprehensive thinking== | ||
+ | Subjects should be linked together rather than artificially partitioned. | ||
+ | |||
+ | >> Aldous Huxley's utopian vision in ''Island'' featured a school that teaches a subject called 'Bridge-building', which is the study of how all the other subjects fit into each other. Bucky's ideas of comprehensive thinking and synergy are similar. | ||
+ | |||
+ | "Learn something about everything and everything about something" | ||
+ | |||
+ | It's actually astonishing how many great minds have come back to this point: that it is bad to separate areas of human knowledge. Education must create polymaths. | ||
+ | |||
+ | Aldous Huxley quipped that the only reason we divide human knowledge into separate subjects is to make life easier on college administrators. (I think it was Huxley, at least - can't find the quote now.)<br> | ||
+ | Gregory Bateson says it very charmingly [http://www.youtube.com/watch?v=XLuADL0ssnc here]. | ||
+ | <blockquote>It is more than fashionable, it is inculcated by our great universities, who believe there is such a thing as psychology which is different from sociology and such a thing as anthropology which is different from both and such a thing as esthetics or art criticism which is different... and that the world is made of separable items of knowledge in which, if you were a student, you could be examined... and the first point I want to get over to you is that the world is not like that AT ALL."</blockquote> | ||
+ | Steve Jobs too has said it [http://video.google.com/videoplay?docid=-204609026222503944# here]. He mentions that taking a course in calligraphy turned out to be useful in creating the first personal computers. And that is the key point: even the most wildly different fields of knowledge cross-fertilize in ways you would never suspect until you've tried it. Every one of us has experienced this cross-fertilization in our own life, but the education system actively opposed | ||
+ | |||
+ | == Advantages of multimedia / augmented reality over books / talk&chalk == | ||
+ | The old way: | ||
+ | *Textbooks - mostly plain text, some pictures, diagrams and charts | ||
+ | *Lectures | ||
+ | *Question and answer | ||
+ | *Studies show that students don't actually read textbooks and when they do, they don't remember what they've read. [http://news.wfu.edu/2011/04/29/successful-learning-engaged-students-it%E2%80%99s-no-longer-a-textbook-case/] | ||
+ | *"Standard" textbooks are used without question; the ones that get used are necessarily the best way of explaining | ||
+ | |||
+ | The new way: | ||
+ | *Video | ||
+ | *Virtual reality | ||
+ | *Mind-maps (find studies on the effects of these on memorizing) | ||
+ | *All of these integrated together in a sort of hypertextbook http://www.ted.com/talks/mike_matas.html | ||
+ | *By testing students after they study particular materials, software can analyze which materials are most effective. Evidence-based best practices can be shared globally | ||
+ | |||
+ | ==Features of lesson software== | ||
+ | Programs like Moodle and Connexions have some of these features, but no one program has them all. | ||
+ | |||
+ | *Wiki-like editable content | ||
+ | *Multimedia, including text, images, videos, music, audio, interactive elements like charts, 3D elements, others | ||
+ | *Modular curriculum. Each module has a learning outcome. Some modules are prerequisites for others; you can't learn multiplication until you've learned addition. | ||
+ | *Students each have an account. This keeps track of modules they've done. | ||
+ | *Quizzes to certify modules have been mastered. Like Kumon, you must reach a certain level before passing (but unlike traditional education, there is no pressure to do so by a particular date). | ||
+ | *Dynamic testing to figure out which lesson is the most effective at teaching. A central computer looks at who has watched which lesson, compares them to exam results, and finds which lessons produce best results. Easily done. | ||
+ | *Dynamic difficulty balancing - questions get harder if you're doing very well, easier if you're doing very badly | ||
+ | *Voice recognition (for language learning, like Rosetta Stone) | ||
+ | *Spaced repetition based on research into the 'forgetting curve' - repeat a fact just before they forget it. Anki is open-source software that does this adaptively. | ||
+ | *Comments on modules. If a module is too dry, could be tagged with 'requires the attention of an animator'. This would help improve the lessons. |
Latest revision as of 19:07, 21 October 2013
This 'discussion page' is currently used to hold notes for the development of this website (however it can still be used for discussion) |
---|
Learning to think for ones-self.
What is being explained must be made relevant to the person consuming it.
- The beauty of adaptive software is that this happens automatically. Introducing technology that allows a student to roam around the landscape of knowledge gives them power to direct their own learning. When they are directing their own learning, it will be more relevant to them than when it is given to them by someone else. --Balatro 20:07, 21 October 2013 (CEST)
- Some things can be learned theoretically (e.g. most subjects currently taught in schools). These can be done by the open-content online learning described.
- Other subjects require practical learning: cooking, dance or anything physical. Skill-acquisition is different from theoretical learning and cannot be taught online.
- Other things, like meditation, require repeated experience, but are not exactly skills - they are 'drills'
Contents
Real-world examples
The article should stress that this is already being implemented and getting great results.
- KIPP Comineza in Los Angeles rotates students among computer stations and small-group instruxion. (By putting half the students at computers at a given time, you effectively half student:teacher ration.) 50% of the kids are on food stamps, 90% Latino, inner-cty urban LA, yet some of the best test scores in California.
- Navigator Schools. Gilroy Prep founded in 2011. Interestingly, when a student rotates is not on a schedule, but on their data. 67% of the students aren't fluent in English, yet they too have some of the highest test scores in California.
- Summit Public Schools - https://en.wikipedia.org/wiki/Summit_Public_Schools - Interresting implementation of mastery-based assessment: instead of doing the lectures, then the test, the test is given up front; this way, if the student already knows it all, they can skip the lectures. Different campuses with different income levels.
Hands-on learning
Getting students to devise and undertake projects like designing and creating a new invention, social entrepreneurship. Teaches actual life skills of organization and getting-shit-done.
This actually enables the sort of cross-fertilization discussed above, because it is when you have to do something practical, some project, and you have to draw on all your resources, that you see the benefits of diverse knowledge.
Studio Schools - http://studioschoolstrust.org/studio-schools/what-studio-school-0 - have teenagers do real-world projects for NGOs and businesses
Augmented reality
Augmented reality and virtual reality will be applied to education in the future. We already have virtual reality simulators to train pilots etc. Imagine learning something like cooking using a computer that can tell what you are doing at a given moment and displays information and advice relevant to the situation.
Video of augmented reality being used to visualize chemistry. Chemistry is more open to this approach than most subjects.
Links
- Quest to Learn - "a school that uses the underlying design principles of games to create highly immersive, game-like learning experiences".
- Article about 'Khan Academy'
- http://www.kipp.org - has a system modelled from excellent teachers to replicate their methods. Seems to get very good results
- Not open-source as far as I'm aware, but an interesting free collection of university lectures in one repository: http://academicearth.org
- http://www.uknow.gse.harvard.edu/ Lots of information and ideas about how to make education better
- http://sfbrightworks.org
Environment
'Biophilia' I think there are studies linking the presence of natural elements (potted plants etc.) to learning. Find references.
Marian Cleeves Diamond's studies on neural 'enrichment' from a stimulating environment might be relevant here [1]
Nutrition: This page is as important to education as any. 100s of studies link sugar, HFCS etc. to cognitive impairment and behavioural problems.
Sound
http://www.ted.com/speakers/julian_treasure.html < This gentleman has a very unique perspective on things. He's given four TED talks on how sound affects humans physiologically, emotionally etc. This is highly relevant to education. The take-home points of his message are:
- Minimize noise with sound insulation. Noise (i.e. anything other than the teaching message) creates cognitive load, distraction and stress. Problem: Some collaborative learning environments might be noisy.
- Keep reverberation time time low (0.4 seconds or below) to make sound clearer and less echoey. This means using materials with high absorption coefficients in classrooms.
- Visual and auditory focus should face the same direction. The message they deliver should be congruent and synchronous. (This is not actually a problem in classrooms, where the teacher stands and talks at the front.)
- Sometimes have just silence. Sometimes have birdsong, water sounds, wind sounds, and music. Schools should have good sound systems playing calming ambient sound and music at the right times. Julian Treasure says sounds at 12 cycles per minute are particularly restful.
Light
Overillumination is well-proven to cause stress. Stress is well-proven to cause poor learning.
page 7 cites a finding that those classes with the most daylight advanced 20% more in a year of math and 26% more in a year of reading.
'Focal glow' to direct attention.
The spectrum of ambient light has physiological and behavioral effects that are relevant to learning. This study replaced fluorescent lights with full-spectrum lights: "A dramatic improvement in behavior was demonstrated in hyperactive children."
Air quality
Indoor plants would improve air quality, decrease VOCs and increase oxygen concentration. See page 2 - 'Linking IAQ [indoor air quality] to Student Performance'
Cognitive skills
It is more flexible to teach cognitive skills - which can then be applied to anyhting - than to teach static subjects.
- Critical thinking (video introduction: [2])
- Mnemonics
- Social skills
- Visualization skills
- Concentration
- General Semantics. This stops people getting hoodwinked both by illogical theories in and by the irrational thought-loops that create depression, anxiety, compulsion etc. — literally "science and sanity"
- Jaeggi-Bushkuehl 'dual n-back training'. Study shows that it increases 'fluid intelligence' in a general way (not merely task-specific). Play online here.
Applying neuroscience to education
Educators would do well to have a better idea of what is actually happening inside the brains of their students. We often diagnose 'learning difficulties' based on vague behavioral traits (e.g. "short attention span"), when we can get a much more accurate picture of what is happening based on brain scans and psychometrics. [3]
- The Arrowsmith School is a step in the right direction; applying neuroscience to understand and remedy weaknesses in cognition, with a program that is tailored to the individual student.
Holistic/ systematic/ comprehensive thinking
Subjects should be linked together rather than artificially partitioned.
>> Aldous Huxley's utopian vision in Island featured a school that teaches a subject called 'Bridge-building', which is the study of how all the other subjects fit into each other. Bucky's ideas of comprehensive thinking and synergy are similar.
"Learn something about everything and everything about something"
It's actually astonishing how many great minds have come back to this point: that it is bad to separate areas of human knowledge. Education must create polymaths.
Aldous Huxley quipped that the only reason we divide human knowledge into separate subjects is to make life easier on college administrators. (I think it was Huxley, at least - can't find the quote now.)
Gregory Bateson says it very charmingly here.
It is more than fashionable, it is inculcated by our great universities, who believe there is such a thing as psychology which is different from sociology and such a thing as anthropology which is different from both and such a thing as esthetics or art criticism which is different... and that the world is made of separable items of knowledge in which, if you were a student, you could be examined... and the first point I want to get over to you is that the world is not like that AT ALL."
Steve Jobs too has said it here. He mentions that taking a course in calligraphy turned out to be useful in creating the first personal computers. And that is the key point: even the most wildly different fields of knowledge cross-fertilize in ways you would never suspect until you've tried it. Every one of us has experienced this cross-fertilization in our own life, but the education system actively opposed
Advantages of multimedia / augmented reality over books / talk&chalk
The old way:
- Textbooks - mostly plain text, some pictures, diagrams and charts
- Lectures
- Question and answer
- Studies show that students don't actually read textbooks and when they do, they don't remember what they've read. [4]
- "Standard" textbooks are used without question; the ones that get used are necessarily the best way of explaining
The new way:
- Video
- Virtual reality
- Mind-maps (find studies on the effects of these on memorizing)
- All of these integrated together in a sort of hypertextbook http://www.ted.com/talks/mike_matas.html
- By testing students after they study particular materials, software can analyze which materials are most effective. Evidence-based best practices can be shared globally
Features of lesson software
Programs like Moodle and Connexions have some of these features, but no one program has them all.
- Wiki-like editable content
- Multimedia, including text, images, videos, music, audio, interactive elements like charts, 3D elements, others
- Modular curriculum. Each module has a learning outcome. Some modules are prerequisites for others; you can't learn multiplication until you've learned addition.
- Students each have an account. This keeps track of modules they've done.
- Quizzes to certify modules have been mastered. Like Kumon, you must reach a certain level before passing (but unlike traditional education, there is no pressure to do so by a particular date).
- Dynamic testing to figure out which lesson is the most effective at teaching. A central computer looks at who has watched which lesson, compares them to exam results, and finds which lessons produce best results. Easily done.
- Dynamic difficulty balancing - questions get harder if you're doing very well, easier if you're doing very badly
- Voice recognition (for language learning, like Rosetta Stone)
- Spaced repetition based on research into the 'forgetting curve' - repeat a fact just before they forget it. Anki is open-source software that does this adaptively.
- Comments on modules. If a module is too dry, could be tagged with 'requires the attention of an animator'. This would help improve the lessons.