Please double-click on the English subtitles below to play the video.
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I'm a huge believer in hands-on education.
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But you have to have the right tools.
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If I'm going to teach my daughter about electronics,
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I'm not going to give her a soldering iron.
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And similarly, she finds prototyping boards
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really frustrating for her little hands.
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So my wonderful student Sam and I
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decided to look at the most tangible thing we could think of:
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Play-Doh.
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And so we spent a summer
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looking at different Play-Doh recipes.
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And these recipes probably look really familiar
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to any of you who have made homemade play-dough --
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pretty standard ingredients you probably have in your kitchen.
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We have two favorite recipes --
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one that has these ingredients
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and a second that had sugar instead of salt.
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And they're great. We can make great little sculptures with these.
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But the really cool thing about them is when we put them together.
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You see that really salty Play-Doh?
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Well, it conducts electricity.
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And this is nothing new.
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It turns out that regular Play-Doh that you buy at the store conducts electricity,
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and high school physics teachers have used that for years.
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But our homemade play-dough
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actually has half the resistance of commercial Play-Doh.
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And that sugar dough?
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Well it's 150 times more resistant to electric current
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than that salt dough.
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So what does that mean?
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Well it means if you them together you suddenly have circuits --
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circuits that the most creative, tiny, little hands
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can build on their own.
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(Applause)
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And so I want to do a little demo for you.
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So if I take this salt dough,
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again, it's like the play-dough you probably made as kids,
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and I plug it in --
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it's a two-lead battery pack, simple battery pack,
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you can buy them at Radio Shack
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and pretty much anywhere else --
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we can actually then
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light things up.
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But if any of you have studied electrical engineering,
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we can also create a short circuit.
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If I push these together, the light turns off.
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Right, the current wants to run through the play-dough, not through that LED.
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If I separate them again, I have some light.
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Well now if I take that sugar dough,
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the sugar dough doesn't want to conduct electricity.
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It's like a wall to the electricity.
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If I place that between, now all the dough is touching,
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but if I stick that light back in,
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I have light.
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In fact, I could even add some movement to my sculptures.
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If I want a spinning tail, let's grab a motor,
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put some play-dough on it, stick it on
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and we have spinning.
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(Applause)
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And once you have the basics,
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we can make a slightly more complicated circuit.
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We call this our sushi circuit. It's very popular with kids.
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I plug in again the power to it.
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And now I can start talking about parallel and series circuits.
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I can start plugging in lots of lights.
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And we can start talking about things like electrical load.
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What happens if I put in lots of lights
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and then add a motor?
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It'll dim.
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We can even add microprocessors
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and have this as an input
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and create squishy sound music that we've done.
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You could do parallel and series circuits
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for kids using this.
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So this is all in your home kitchen.
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We've actually tried to turn it into an electrical engineering lab.
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We have a website, it's all there. These are the home recipes.
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We've got some videos. You can make them yourselves.
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And it's been really fun since we put them up to see where these have gone.
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We've had a mom in Utah who used them with her kids,
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to a science researcher in the U.K.,
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and curriculum developers in Hawaii.
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So I would encourage you all to grab some Play-Doh,
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grab some salt, grab some sugar and start playing.
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We don't usually think of our kitchen as an electrical engineering lab
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or little kids as circuit designers,
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but maybe we should.
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Have fun. Thank you.
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(Applause)
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