How to spark your curiosity, scientifically | Nadya Mason

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Transcriber: Joseph Geni Reviewer: Joanna Pietrulewicz

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A friend called me a few weeks ago

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with bad news.

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She dropped her cell phone into the toilet.

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Anyone here done that before?

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(Laughter)

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So it was a bad situation.

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You know, without getting into the details of exactly how that happened

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or how she got it out,

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let's just say it was a bad situation.

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And she panicked because, like for many of us,

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her phone is one of the most used and essential tools in her life.

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But, on the other hand, she had no idea how to fix it,

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because it's a completely mysterious black box.

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So think about it: what would you do?

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What do you really understand about how your phone works?

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What are you willing to test or fix?

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For most people, the answer is, nothing.

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In fact, one survey found

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that almost 80 percent of smartphone users in this country

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have never even replaced their phone batteries,

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and 25 percent didn't even know this was possible.

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Now, I'm an experimental physicist,

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hence the toys.

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I specialize in making new types of nanoscale electronic devices

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to study their fundamental quantum mechanical properties.

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But even I wouldn't know where to start in terms of testing elements on my phone

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if it broke.

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And phones are just one example of the many devices that we depend upon

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but can't test, take apart, or even fully understand.

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Cars, electronics, even toys are now so complicated and advanced

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that we're scared to open and fix them.

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So here's the problem:

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there's a disconnect between us and the technology that we use.

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We're completely alienated from the devices that we most depend upon,

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which can make us feel helpless and empty.

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In fact, it's not surprising then that one study found

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that we are now more afraid of technology

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than we are of death.

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(Laughter)

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But I think that we can reconnect to our devices,

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rehumanize them in a sense,

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by doing more hands-on experiments.

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Why? Well, because an experiment is a procedure to test a hypothesis,

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demonstrate a fact.

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It's the way that we use our senses,

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our hands,

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to connect the world

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and figure out how it works.

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And that's the connection that we're missing.

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So let me give you an example.

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Here's an experiment that I did recently

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to think about how a touchscreen works.

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It's just two metal plates,

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and I can put charge on one of the plates from a battery.

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OK.

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And I can measure the charge separation with this voltmeter here.

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Now -- let's make sure it's working.

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So when I wave my hand near the plates,

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you can see that the voltage changes

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just like the touchscreen responds to my hand.

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But what is it about my hand? Now I need to do more experiments.

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So I can, say, take a piece of wood

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and touch one of the plates and see that not much happens,

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but if I take a piece of metal and touch the plate,

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then the voltage changes dramatically.

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So now I can do further experiments to see what the difference is

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between the wood and the metal,

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and I should find out that the wood is not conducting

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but the metal is conducting like my hand.

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And, you see, I build up my understanding.

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Like, now I can see why I can't use a touchscreen with gloves,

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because gloves aren't conducting.

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But I've also broken down some of the mystery behind the technology

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and built up my agency,

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my personal input and interactions with the basis of my devices.

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But experimenting is a step beyond just taking things apart.

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It's testing and doing hands-on critical thinking.

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And it doesn't really matter whether I'm testing how a touchscreen works

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or if I'm measuring how conducting different types of materials are,

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or even if I'm just using my hands to see how hard it is to break

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different thicknesses of materials.

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In all cases, I'm gaining control and understanding

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of the basis of the things that I use.

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And there's research behind this.

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For one, I'm using my hands,

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which seem to promote well-being.

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I'm also engaging in hands-on learning,

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which has been shown to improve understanding and retention,

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and even activate more parts of your brain.

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So hands-on thinking through experiments

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connects our understanding,

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even our sense of vitality,

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to the physical world and the things that we use.

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Looking things up on the internet

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does not have the same effect.

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Now, for me this focus on experiments

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is also personal.

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I didn't grow up doing experiments.

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I didn't know what a physicist did.

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I remember my sister had a chemistry set that I always wanted to use

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but she never let me touch.

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I felt mentally disconnected from the world

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and didn't know why.

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In fact, when I was nine years old,

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my grandmother called me a solipsist,

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which is something I had to look up.

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It means that you think that yourself is all that exists.

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And at the time I was pretty offended,

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because whose grandmother calls them that?

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(Laughter)

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But I think that it was true.

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And it wasn't until years later,

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when I was in college and studying basic physics,

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that I had a revelation

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that the world,

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at least the physical world,

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could be tested and understood,

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that I started to gain a completely different sense

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of how the world worked

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and what my place was in it.

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And then later, when I was able my own testing

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and understanding through research,

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a big part of my connection to the world was complete.

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Now, I know that not everyone is an experimental physicist by profession,

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but I think that everyone could be doing more hands-on experiments.

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And actually I think we sort of --

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I'll give you another example.

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I was recently working with some middle school students,

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helping them learn about magnetism,

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and I gave them a Magna Doodle to take apart.

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Remember one of these things?

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So at first, none of them wanted to touch it.

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They'd been told for so long not to break things

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that they're accustomed to just passive using.

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But then I started asking them questions.

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You know, how does it work? What parts are magnetic?

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Can you make a hypothesis and test it?

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But they still didn't want to break it open.

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They wanted to take it home with them, really.

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Until, one kid finally sliced it through and found really cool stuff inside.

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And so this is something we can do here together.

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They're pretty easy to take apart.

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See, there's a magnet inside, and I can just cut this open.

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Cut it open again, you can split it.

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OK, so when I do that -- I don't know if you can see this,

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but there is sort of -- there it is, this oozy white stuff in here.

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Now you can see it on my finger.

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And when I drag the pen on it,

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you can see that these filaments are attached to it.

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So the kids saw this,

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and at this point they're like, this is really cool.

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They got excited.

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They all started ripping them open and taking them apart

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and yelling out the things that they discovered,

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how these magnetic filaments connected to the magnetic pen

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and that's how it wrote.

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Or, how the oozy white stuff kept things dispersed so it could write.

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And as they were leaving the room,

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two of them turned to me and said,

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"We loved that.

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Me and her are going home this weekend to do more experiments."

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(Laughter)

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Yeah, I know, the parents in there are worried about it,

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but it's a good thing!

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Experimenting is good, and actually I found it extremely gratifying,

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and I think hopefully it was very life-enriching for them.

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Because, even a basic magnet

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is something that we can experiment with at home.

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They're both simple and complex at the same time.

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For example, you can ask yourself,

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how can the same material both attract and repel?

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If I take a magnet, is it useful if I can get one of them

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to rotate the other, for example?

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Or, you can take this dollar bill over here,

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and I can take a set of magnets,

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and you can see that the dollar bill gets lifted by the magnets.

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There's magnetic ink hidden in here that prevents counterfeiting.

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Or, here I have some crushed-up bran cereal. OK?

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And that's also magnetic. Right?

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That has iron in it.

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(Laughter)

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And that can be good for you, right?

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OK, here's something else.

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This thing over here is not magnetic.

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I can't lift it up with the magnet.

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But now I'm going to make it cold.

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The same thing in here, cold,

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and when I make it cold,

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and put it on top of the magnet,

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so --

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(Applause)

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It's amazing.

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That's not magnetic,

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but somehow it's interacting with a magnet.

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So clearly understanding this is going to take many more experiments.

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In fact, this is something that I've spent much of my career studying.

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It's called a superconductor.

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Now, superconductors can be complex,

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but even simple experiments can connect us better to the world.

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So now if I tell you that flash memory works by rotating small magnets,

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then you can imagine it. You've seen it.

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Or, if I say that MRI machines

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use magnetism to rotate magnetic particles in your body,

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you've seen it done.

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You've interacted with the technology and understood the basis of these devices.

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Now, I know that it's hard to add more things to our lives,

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especially experiments.

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But I think that the challenge is worth it.

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Think about how something works, then take it apart to test it.

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Manipulate something and prove some physical principle to yourself.

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Put the human back in the technology.

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You'll be surprised at the connections that you make.

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Thank you.

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(Applause)