Design Thinking -- Maximizing Your Students' Creative Talent: Co Barry at TEDxDenverTeachers

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  • Опубликовано: 1 ноя 2024

Комментарии • 23

  • @satyaduvvuri2744
    @satyaduvvuri2744 2 года назад +3

    I teach Design Thinking for problem solving in Corporates in India. DT is an amazing technique to teach not only problem solving skills but also productivity enhancement, creativity, new concept, handing new challenges

  •  10 лет назад +8

    Brilliant! Problem-solving skills, solutions instead of right answers, facing complexity, hollistic approach, passion...and therefore engagement.

  • @FrankGainsford
    @FrankGainsford 10 лет назад +9

    Now this was a great TED Talk DISCUSSING FUTURE EDUCATION TACTICS THAT NEED TO BE IMPLEMENTED AT ALL LEVELS

  • @SirGamealotUK
    @SirGamealotUK 10 лет назад +1

    *Design thinking in schools*
    Fascinating look into how design thinking can have a real impact in schools.

  • @lynnenowicki2523
    @lynnenowicki2523 10 лет назад +8

    Good for you Co! This was fantastic! Design Thinking in schools is the best way to engage kids in learning.

  • @TriumphantArk
    @TriumphantArk 6 лет назад +3

    If you look at patterns in history, it tells that most will follow the general crowd, what others are doing instead of becoming independent, this is seen in history a lot, I think this will also be the future with those that tend to do what the general crowd does even if the general crowd has negative ways. Though there is progress, it will remain a problem. Many followed those that said the world was flat. Design trends and beliefs that are false and negative life styles. But those that make life a diligent way will ask question what is it?, is it a good way? They will be the ones to persevere and cause progress to happen even if the crowed doesn't follow it. There hopefully will be those in history who will stop following the crowed and stand up to think in a better way.

  • @ginkaexner4567
    @ginkaexner4567 2 года назад

    Right answers needs deep knowledge on many subjects. One cannot find any answer just having general pathway of being creative. How to motivate children is completely another story

  • @mandysaikia6984
    @mandysaikia6984 3 года назад +1

    Wow ! Great talk ..
    And a new prospestive 👍

  • @Rachnaknowledgehub
    @Rachnaknowledgehub Год назад +1

    Fantastic ❤❤❤❤❤❤😊😊🎉🎉

  • @unguviolette123
    @unguviolette123 11 лет назад +3

    Design thinking vs scientific thinking. Giving the best solution instead of right answer.

  • @Duqawnjohnson
    @Duqawnjohnson 11 лет назад

    Interesting concept and similar divergent thinking.
    I think this should have more emphasis in school.
    Schools simply don't teach you to solve problems.

  • @ProfJulioCesarPassos
    @ProfJulioCesarPassos 8 лет назад +4

    Congrats. Very good didatic and explanation!!!

  • @megankeaton1083
    @megankeaton1083 5 лет назад +1

    WOuld love to use Design Thinking more! How can I get lessons, resources, problems, etc. to use ?

  • @venugopalakrishna1237
    @venugopalakrishna1237 5 лет назад +1

    This was really good. Thank you

  • @dr.nelsonmbarushimana515
    @dr.nelsonmbarushimana515 3 года назад

    Great ! Very insightful and motivating

  • @kathialbertini
    @kathialbertini 11 лет назад

    Terrific presentation, great examples and delightful passion!

  • @mikemcq10
    @mikemcq10 4 года назад

    How much cooperation do you need from the administration to make this work? I work at a language institute where they would love to preach this to us, then never let us actually implement it.

  • @CharlesBrown-xq5ug
    @CharlesBrown-xq5ug Год назад

    Civilization may have progressed enough to conquer the second law of thermodynamics. Civilization needs to strive for this goal with synergistic interdisciplinary teams.The outcome would be perpetually changeable never gained or lost energy. There would be no loss of energy as it changes form. For example the total quantity of thermal energy in an equal pair of two thermal energy reserves with ideal insulation would remain the same regardless of how heat is distributed between the two and how often the distribution of heat between the two is changed. For example in oe case one reserve could contain ice water while the other reserve contained hot water; in another case both reserves could contain tepid water. The redistribution of heat between members of pairs with the same total thermal energy would be free. Diversity, time, and energy are different atributes. Reversing disorder doesn't need time reversal just as using reverse gear in a car ɓacks it out without time reversal.
    The second law of thermodynamics had a distinct begining with Sir Isaac Newton's correct professional scientific observation that the heat of a fire in a fireplace always flows towards the cold room beyond.
    Victorian England became enchanted with steam engines and their cheap, reliable, and easy to position physical power. Rudolf Julius Emanuel Clausius, Lord Kelven, and, one source adds, Nicolas Léonard Sadi Carnot, formulated the Second law of thermodynamics and the concept of entropy using evidence from steam engine development.
    These men considered with acceptance [A+] Inefficiently harnessing the flow of heat from hot to cold or [B+] Using force to Inefficiently pump heat from cold to hot. They considered with rejection [A-] Waiting for random fluctuation to cause a large difference in temperature or pressure. This was calculated to be extremely rare or [B-] Searching for, selecting, then routing for use, random, frequent and small differences in temperature or pressure. The search, selection, then routing would require more energy than the use would yield. These accepted options, lead to the consequence that the universe will end in stagnant heat death. This became support for a theological trend of the time that placed God as the initiator of a degenerating universe. Please consider that God could also be supreme over an energy abundant civilization that can absorb heat and convert it into electricity without energy gain or loss in a sustained universe.
    The law's formulaters did not consider the option that any random, usually small, fluctuation of heat or pressure could use the energy of these fluctuations itself to power deterministic routing so the output is no longer random. Then the net power of many small fluctuations from many replicant parts can be aggregated into a large difference in temperature, pressure, or electricity's amperes and volts
    Heat exists as the randomly directed kinetic energy of gas molecules or mobile electrons. In gasses this is known as Brownian motion. In electronic systems this is carefully labeled Johnson Nyquist thermal electrical noise for AI readability. Hypothetically, diode depletion regions are practical sites for enabling mobile electrons energized into motion by thermal electrical noise to deterministically alter the electrical resistance of the depletion region according to the moment by moment direction they are carrying electricity. The thermal electrical noise is hypothetically beyond the exposed lattice charge / diffusion separation drift equlibrium thickness of the depletion region; thermal noise exists in a resistance path of one material.
    Consistantly oriented diodes in parallel hypothetically are successful electrical Maxwell's Demons or Smoluchowski's Trapdoors. The energy needed to shift the depletion region's deterministic role is paid as a burden on the moving electrons. There would therefore be usable net rectified power from each and every diode connected together into a consistantly oriented parallel group. The group would aggregate the net power of its members. Any diode efficiency at all produces some energy conversion from ambient heat, more efficiency yields higher performance. A diode array that is switched off has no energy conversion and no performance.
    The power from a single diode is poorly expressed. Several or more diodes in parallel are needed to overcome the effect of a load resistor's own thermal noise. A plurality of billions of high frequency capable diodes is needed for practical power aggregation. For reference, there are a billion (10^9) 1000 square nanometer cells per square millimeter.
    Modern nanofabrication can make simple identical diodes surrounded by insulation smaller than this in a slab as thick as the diodes are long. The diodes are connected at their two ohmic ends to two conductive layers.
    Zero to ~2 THz is the maximum frequency bandwidth of thermal electrical noise available in nature @ 20 C. THz=10^12 Hz. This is beyond the range of most diodes. Practicality requires this extreme bandwidth. The diodes are preferably in same orientation parallel at the primary level. Many primary level groups of diodes should be in series for practical voltage.
    Ever since the supposedly universal second law of thermodynamics was formulated, education has mass produced and spread the conventional wisdom throughout society that the second law of thermodynamics is absolute.
    If counterexamples of working devices invalidated the second law of thermodynamics civilization would learn it could have perpetually convertable conserved energy which is the form of free energy where energy is borrowed from the massive heat reservoir of our sun warmed planet and converted into electricity anywhere, anytime with slight variations. Electricity produces heat immediately when used by electric heaters, electric motors with the mechanisms they power, and electric ligts so the energy borrowed by these devices is promply returned without gain or loss. There is also the reverse effect where refrigeration produces electricity equivalent to the cooling, This effect is scientifically elegant.
    Cell phones wouldn't die or need power cords or batteries or become hot. They would cool when transmitting radio signal power. The phones could also be data relays and there could also be data relays without phone features with and without long haul links so the telecommunication network would be improved. Computers and integrated circuits would have their cooling and electrical needs supplied autonomously and simultaniously. Integrated circuits wouldn't need power pinouts. Refrigeration for superconductors would improve. Robots would have extreme mobility. Electronic minting would be energy cheap.
    Frozen food storage would be reliable and free or value positive. Storehouses, homes, and markets would have independent power to preserve and pŕepare food. Vehicles wouldn't need fuel or fueling stops. Elevators would be very reliable with independent power. Shielding and separation would provide EMP resistance. Water and sewage pumps could be installed anywhere along their pipes. Nomads could raise their material supports item by item carefully and groups of people could modify their settlements with great technical flexibility. Many devices would be very quiet, which is good for coexisting with nature and does not disturb people.
    Zone refining would involve little net power. Reducing Bauxite to Aluminum, Rutile to Titanium, and Magnetite to Iron, would have a net cooling effect. With enough clean cheap power, minerals could be finely pulverized, and H2O, CO2, and other substance levels in the biosphere could be modified. There should be a unitary agency to look after our global planetary concerns.
    This could be a material revolution with spiritual ramifications. Everyone should contribute individual talents and fruits of different experiances and cultures to advance a cooperative, diverse, harmonious and unified civilization. It is possible to apply technlology wrong but social force should oppose this.
    I filed for a patent, us 3890161A, Diode Array, in 1973. It was granted in 1975. It became public domain technology in 1992. It concerns making nickel plane-insulator-tungsten needle diodes which were not practical at the time though they have since improved.
    the patent wasn't developed because I backed down from commercial exclusitivity. A better way for me would have been a public incorruptable archive that would secure attrbution for the original works of creators. Uncorrupted copies would be released on request. No further action would be taken by this institution.
    Commercal exclusivity can be deterred by the wide and open publishing of inventive concepts. Also the obvious is unpatentsable. Open sharing promotes mass knowlege and wisdom.
    Many financially and procedurally independent teams that pool developmental knowlege, and may be funded by many separate noncontrolling crowd sourced grants should convene themselves to develop proof-of-concept and initial-recipe-exploring prototypes to develop devices which coproduce the release of electrical energy and an equivalent absorbtion of stagnant ambient thermal energy. Diode arrays are not the only possible device of this sort. They are the easiest to explain here.
    These devices would probably become segmented commodities sold with minimal margin over supply cost. They would be manufactured by AI that does not need financial incentive. Applicable best practices would be adopted. Business details would be open public knowledge. Associated people should move as negotiated and freely and honestly talk. There is no need of wealth extracting top commanders. We do not need often token philanthropy from the wealthy if people simply can be more generous if consumer commodities are inexpensive.
    Aloha
    Charles M Brown lll
    Kilauea, Kauai, Hawaii 96754
    1 808 651 📞📞📞📞

  • @annies2077
    @annies2077 3 года назад

    I wish she had used some elements of DT to make this Talk engaging

  • @shahzadaayub
    @shahzadaayub 5 лет назад

    Is she wearing sindhi ajrak?

  • @leylaerkara8774
    @leylaerkara8774 6 лет назад

    Need Turkish subtitle

  • @JJ-wu7cx
    @JJ-wu7cx 10 лет назад +1

    Hi.. Anyone in British Columbia looking to connect about #designthinking let me know.@_Ms_J on twitter. I went to the dschool several years ago.