Nanocar Race 2017: 4. Wie steuert man ein Nanocar?
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| Part Number | 4 | |
| Number of Parts | 163 | |
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| License | CC Attribution - NoDerivatives 4.0 International: You are free to use, copy, distribute and transmit the work or content in unchanged form for any legal purpose as long as the work is attributed to the author in the manner specified by the author or licensor. | |
| Identifiers | 10.5446/50306 (DOI) | |
| Publisher | 05jdrrw50 (ROR) | |
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00:00
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Transcript: English(auto-generated)
00:03
In the next video we will see a model, a STM, so a very fine microscope, and this is all of this machine. All of your models are here in this camera, this is our STM. Ok, so you can't see directly, where are you going to build it?
00:20
The building that we are going to see is a computer, we can use our handsets and build it. Ok, so what are you going to see now? So here you can see one nano-autos of the object. That's a lot of fun, right? So here you can see a nano-car.
00:40
Ok, and how do you get one of these molecules? Do you need one of these? Or how do you do it? The only thing we need is the ring. But we need it? Yes, we need it. Ok, so we need it in a very small way. How do you get one of these? We need it in a small way, but then we need it in contact with the molecule and we need it in contact with the molecule.
01:01
And what we need is that we need to position the nano-car and then fold our nano-car. Can you position it in a small way? Yes, I can position it in a small way. Here you can see the box. You can position it in a small way.
01:20
You can position it in a small way. So I can position it in a small way. Yes, that's why we need an anti-microscopy method and position it in the same way. Ok, but why does the nano-car position it in the same way? The nano-car position is in contact with the molecule.
01:42
It has a nitric energy. At the same time, we position the molecule in contact with the molecule. And then I can position it in a small way. And then I can position it in a small way. This way the energy will emerge. And when the molecule is in contact with the molecule, it can get an electron from the molecule in the opposite direction.
02:02
And you can see the surface. We have a battery that goes out of the way. And the energy in the battery goes out of the way. And we have a molecule that goes out of the way. So in this moment, when the energy is in contact with the molecule, the nano-car is in contact with the molecule. Do you have the build-up?
02:21
Is that the cost? No, that's our rent-track. And then we fold it. You can see the video. We fold the car up. Ah, there you have it. Now we can see what the rent-track is. What's not really possible. What happened in the nano-car race?
02:42
When the rent-track is in contact with the molecule, we can see the rent-track. But we have a wider fan. Ah, okay, you have a wider fan. Good. In this video, we saw how a small object like a nano-car can be used. In the next video, we will see how the rent-track can be used.
03:00
I hope to see you in the next video. See you next time.