AnnMarie Thomas: Hands-on science with squishy circuits

123,300 views ・ 2011-04-04

TED


Please double-click on the English subtitles below to play the video.

00:15
I'm a huge believer in hands-on education.
0
15260
3000
00:19
But you have to have the right tools.
1
19260
2000
00:21
If I'm going to teach my daughter about electronics,
2
21260
3000
00:24
I'm not going to give her a soldering iron.
3
24260
2000
00:26
And similarly, she finds prototyping boards
4
26260
2000
00:28
really frustrating for her little hands.
5
28260
3000
00:31
So my wonderful student Sam and I
6
31260
3000
00:34
decided to look at the most tangible thing we could think of:
7
34260
2000
00:36
Play-Doh.
8
36260
2000
00:38
And so we spent a summer
9
38260
2000
00:40
looking at different Play-Doh recipes.
10
40260
2000
00:42
And these recipes probably look really familiar
11
42260
2000
00:44
to any of you who have made homemade play-dough --
12
44260
2000
00:46
pretty standard ingredients you probably have in your kitchen.
13
46260
3000
00:49
We have two favorite recipes --
14
49260
2000
00:51
one that has these ingredients
15
51260
2000
00:53
and a second that had sugar instead of salt.
16
53260
2000
00:55
And they're great. We can make great little sculptures with these.
17
55260
3000
00:58
But the really cool thing about them is when we put them together.
18
58260
3000
01:01
You see that really salty Play-Doh?
19
61260
2000
01:03
Well, it conducts electricity.
20
63260
2000
01:05
And this is nothing new.
21
65260
2000
01:07
It turns out that regular Play-Doh that you buy at the store conducts electricity,
22
67260
2000
01:09
and high school physics teachers have used that for years.
23
69260
3000
01:12
But our homemade play-dough
24
72260
2000
01:14
actually has half the resistance of commercial Play-Doh.
25
74260
2000
01:16
And that sugar dough?
26
76260
2000
01:18
Well it's 150 times more resistant to electric current
27
78260
2000
01:20
than that salt dough.
28
80260
2000
01:22
So what does that mean?
29
82260
2000
01:24
Well it means if you them together you suddenly have circuits --
30
84260
3000
01:27
circuits that the most creative, tiny, little hands
31
87260
3000
01:30
can build on their own.
32
90260
3000
01:33
(Applause)
33
93260
5000
01:38
And so I want to do a little demo for you.
34
98260
3000
01:42
So if I take this salt dough,
35
102260
2000
01:44
again, it's like the play-dough you probably made as kids,
36
104260
2000
01:46
and I plug it in --
37
106260
2000
01:48
it's a two-lead battery pack, simple battery pack,
38
108260
3000
01:51
you can buy them at Radio Shack
39
111260
2000
01:53
and pretty much anywhere else --
40
113260
2000
01:55
we can actually then
41
115260
3000
01:58
light things up.
42
118260
3000
02:02
But if any of you have studied electrical engineering,
43
122260
2000
02:04
we can also create a short circuit.
44
124260
2000
02:06
If I push these together, the light turns off.
45
126260
3000
02:09
Right, the current wants to run through the play-dough, not through that LED.
46
129260
2000
02:11
If I separate them again, I have some light.
47
131260
2000
02:13
Well now if I take that sugar dough,
48
133260
2000
02:15
the sugar dough doesn't want to conduct electricity.
49
135260
2000
02:17
It's like a wall to the electricity.
50
137260
2000
02:19
If I place that between, now all the dough is touching,
51
139260
3000
02:22
but if I stick that light back in,
52
142260
2000
02:24
I have light.
53
144260
2000
02:26
In fact, I could even add some movement to my sculptures.
54
146260
3000
02:29
If I want a spinning tail, let's grab a motor,
55
149260
2000
02:31
put some play-dough on it, stick it on
56
151260
3000
02:34
and we have spinning.
57
154260
2000
02:36
(Applause)
58
156260
4000
02:40
And once you have the basics,
59
160260
2000
02:42
we can make a slightly more complicated circuit.
60
162260
2000
02:44
We call this our sushi circuit. It's very popular with kids.
61
164260
3000
02:47
I plug in again the power to it.
62
167260
3000
02:50
And now I can start talking about parallel and series circuits.
63
170260
3000
02:53
I can start plugging in lots of lights.
64
173260
3000
02:58
And we can start talking about things like electrical load.
65
178260
3000
03:01
What happens if I put in lots of lights
66
181260
2000
03:03
and then add a motor?
67
183260
2000
03:05
It'll dim.
68
185260
2000
03:07
We can even add microprocessors
69
187260
3000
03:10
and have this as an input
70
190260
2000
03:12
and create squishy sound music that we've done.
71
192260
3000
03:15
You could do parallel and series circuits
72
195260
2000
03:17
for kids using this.
73
197260
3000
03:20
So this is all in your home kitchen.
74
200260
3000
03:23
We've actually tried to turn it into an electrical engineering lab.
75
203260
3000
03:26
We have a website, it's all there. These are the home recipes.
76
206260
3000
03:29
We've got some videos. You can make them yourselves.
77
209260
2000
03:31
And it's been really fun since we put them up to see where these have gone.
78
211260
3000
03:34
We've had a mom in Utah who used them with her kids,
79
214260
2000
03:36
to a science researcher in the U.K.,
80
216260
2000
03:38
and curriculum developers in Hawaii.
81
218260
3000
03:41
So I would encourage you all to grab some Play-Doh,
82
221260
2000
03:43
grab some salt, grab some sugar and start playing.
83
223260
3000
03:46
We don't usually think of our kitchen as an electrical engineering lab
84
226260
3000
03:49
or little kids as circuit designers,
85
229260
2000
03:51
but maybe we should.
86
231260
2000
03:53
Have fun. Thank you.
87
233260
2000
03:55
(Applause)
88
235260
7000
About this website

This site will introduce you to YouTube videos that are useful for learning English. You will see English lessons taught by top-notch teachers from around the world. Double-click on the English subtitles displayed on each video page to play the video from there. The subtitles scroll in sync with the video playback. If you have any comments or requests, please contact us using this contact form.

https://forms.gle/WvT1wiN1qDtmnspy7