WEBVTT FILE 1 00:00:00.000 --> 00:00:04.000 When you look at NASA's James Webb Space Telescope you can't help but 2 00:00:04.000 --> 00:00:08.000 see the huge gold mirrors. 3 00:00:08.000 --> 00:00:12.000 But that gold is really only on the surface the rest of the mirrors 4 00:00:12.000 --> 00:00:16.000 mirrors are made out of a metal called beryllium. 5 00:00:16.000 --> 00:00:20.000 Why does Webb have beryllium Mirrors. Elements of Webb 6 00:00:20.000 --> 00:00:24.000 Let's head to the shop that worked on these mirrors to get a better idea about why 7 00:00:24.000 --> 00:00:28.000 why this metal is so remarkable. 8 00:00:28.000 --> 00:00:32.000 music 9 00:00:32.000 --> 00:00:36.000 I’ll just follow the noises. 10 00:00:36.000 --> 00:00:40.000 Engineers chose beryllium for 3 major reasons. 11 00:00:40.000 --> 00:00:44.000 It is super lightweight. 12 00:00:44.000 --> 00:00:48.000 It is the second lightest of all the metals and only two thirds the weight 13 00:00:48.000 --> 00:00:52.000 aluminum. It's super strong. 14 00:00:52.000 --> 00:00:56.000 Beryllium is 6 times stiffer than steel. 15 00:00:56.000 --> 00:01:00.000 Each of these cantilevered weights are the same 16 00:01:00.000 --> 00:01:04.000 except for the type of metal. They are the same length, the same weight 17 00:01:04.000 --> 00:01:08.000 and size. Look at what happens when they are lifted 18 00:01:08.000 --> 00:01:12.000 and released at the same time. The beryllium wiggles with less intensity 19 00:01:12.000 --> 00:01:16.000 and stops moving first. That is because it is far 20 00:01:16.000 --> 00:01:20.000 stiffer than the other two. So it can also hold its shape 21 00:01:20.000 --> 00:01:24.000 over really broad range of temperatures, and that's especially important in the colds ones. 22 00:01:24.000 --> 00:01:28.000 I measured these identical aluminum and beryllium mirrors, 23 00:01:28.000 --> 00:01:32.000 and left them in some dry ice for a while. Science. 24 00:01:32.000 --> 00:01:36.000 I admit, that my measuring technique could used some work 25 00:01:36.000 --> 00:01:40.000 But the aluminum shrunk more than the beryllium. 26 00:01:40.000 --> 00:01:44.000 Materials tend to change in shape, volume, and density 27 00:01:44.000 --> 00:01:48.000 in response to temperature. When something is heated up, 28 00:01:48.000 --> 00:01:52.000 the molecules begin to vibrate more and separate, a little. The amount the material 29 00:01:52.000 --> 00:01:56.000 changes is predictable and is based on its 30 00:01:56.000 --> 00:02:00.000 coefficient of thermal expansion. So beryllium it stops shrinking and changing 31 00:02:00.000 --> 00:02:04.000 its size when it cools below 100 Kelvin. 32 00:02:04.000 --> 00:02:08.000 So the mirrors we see are a little too large on Earth 33 00:02:08.000 --> 00:02:12.000 and will be the exact size they need to be once they are out in space. 34 00:02:12.000 --> 00:02:16.000 music 35 00:02:16.000 --> 00:02:20.000 Beryllium is obviously an incredible material. 36 00:02:20.000 --> 00:02:24.000 But everything does have its nuances. 37 00:02:24.000 --> 00:02:28.000 So, why isn’t beryllium used more often? 38 00:02:28.000 --> 00:02:32.000 Machining beryllium requires extreme care. If you think about it, 39 00:02:32.000 --> 00:02:36.000 beryllium is actually a powder 40 00:02:36.000 --> 00:02:40.000 that is pressed together and requires 41 00:02:40.000 --> 00:02:44.000 very very light cuts. Any small mistake it would crack, 42 00:02:44.000 --> 00:02:48.000 and there would probably be a piece that would fall off. 43 00:02:48.000 --> 00:02:52.000 And you've lost a part that can be worth anywhere between 44 00:02:52.000 --> 00:02:56.000 between $1,800.00 to $2,000.00 a pound. 45 00:02:56.000 --> 00:03:00.000 Under the wrong circumstances, beryllium may be fragile, and it's fairly expensive. 46 00:03:00.000 --> 00:03:04.000 But it holds its shape well, is very stiff and most 47 00:03:04.000 --> 00:03:08.000 most importantly it's light weight. Rockets need a lot of fuel 48 00:03:08.000 --> 00:03:12.000 for each pound of payload, so any weight saving measures 49 00:03:12.000 --> 00:03:17.460 are really really worth it. 50 00:03:17.460 --> 00:03:17.461 music