1 00:00:00,000 --> 00:00:07,813 Hi, I'm Brady and you might remember last year the professor met a man named Max Whitby the element collector. 2 00:00:07,813 --> 00:00:12,085 He's a guy who makes real life periodic tables 3 00:00:12,085 --> 00:00:15,337 and we remember what Max told us. 4 00:00:15,337 --> 00:00:17,707 I'll invite you to our lab to see some being melted 5 00:00:17,707 --> 00:00:20,169 which is quite a nice thing to see. 6 00:00:20,169 --> 00:00:22,982 So I've been down to London to make a few videos with Max 7 00:00:22,982 --> 00:00:25,832 and well, here's the first one. 8 00:00:29,532 --> 00:00:37,167 We're in the world headquarters of the red, green, and blue company, RGB research, which is where we make our periodic tables. 9 00:00:37,167 --> 00:00:46,384 The displays that we make here are really mainly for museums and for schools and occasionally for very wealthy individuals who fancy a periodic table in their study. 10 00:00:46,504 --> 00:00:52,724 And actually what I'm about to do now is to make a sample to go into one of these periodic tables 11 00:00:53,004 --> 00:00:54,421 This is what we're starting with 12 00:00:54,421 --> 00:00:59,215 and it's, um, a beautiful one kilogram jar of silver. 13 00:00:59,443 --> 00:01:03,927 Sadly, if I bought this about a year ago I could have got it for maybe 200 pounds. 14 00:01:03,927 --> 00:01:06,868 But now silver shot up in price. 15 00:01:06,868 --> 00:01:15,213 This is one of the terrible problems of being in the element selling trade. And now this is almost a thousand pounds worth of silver. 16 00:01:15,213 --> 00:01:21,417 And what I'm going to do, I hope, is to turn it into a beautiful cylinder. 17 00:01:21,417 --> 00:01:26,334 This is even more expensive. Feel the weight, just feel the weight of that. 18 00:01:26,338 --> 00:01:28,686 (man off screen) whoa yea, what's that? 19 00:01:28,686 --> 00:01:33,508 Yea, well, what you're looking at is pure gold. So that's a one kilogram cylinder. 20 00:01:33,508 --> 00:01:41,637 Um, and, um, if we make an equivalent size cylinder in silver it's going to be about half the weight. It's going to be about half a kilogram. 21 00:01:42,081 --> 00:01:44,522 Um, so I'm hoping to get two cylinders out of this. 22 00:01:44,812 --> 00:01:49,166 Now, the very first step in making a cylinder - do you know what it is? 23 00:01:49,336 --> 00:01:51,771 You have to do a risk assessment, 24 00:01:51,771 --> 00:01:55,316 cuz what we're doing is dealing with hot molten metal. 25 00:01:55,316 --> 00:02:00,681 And so, um, we've actually gone through quite carefully, thinking of all the things that can go wrong 26 00:02:00,681 --> 00:02:03,656 and, Brady, we've actually had a chat about that. 27 00:02:03,706 --> 00:02:06,042 That's why I'm going to be standing out here. 28 00:02:06,042 --> 00:02:09,960 And, um, I'm going to load the furnace. See that's glowing nicely red-hot? 29 00:02:09,990 --> 00:02:13,571 This is a graphite crucible. In fact, stay there and I'm going to go and turn the light out. 30 00:02:17,015 --> 00:02:18,256 Is that glowing still? 31 00:02:18,366 --> 00:02:19,118 man off screen - yea 32 00:02:19,567 --> 00:02:26,672 Yea so that is hot. I've set that to one thousand and fifty degrees Centigrade, so that's quite a bit above the melting point of silver. 33 00:02:27,513 --> 00:02:36,217 Um, so I'm going to start by filling that up. And now, of course, doing this is going to reduce the temperature, uh, very considerably. 34 00:02:36,217 --> 00:02:47,160 Um, so, once we've filled it up with the pieces of silver, well then you can actually see it cooling. And silver is a superb conductor of heat. 35 00:02:47,257 --> 00:02:52,732 And that's got a lot of thermal inertia. You can see that's gone almost now back to the color of graphite. 36 00:02:52,732 --> 00:02:56,416 Cause all that heat that was in the graphite has gone into the silver very very quickly. Superb conductor. 37 00:02:56,416 --> 00:03:01,361 And now we're going to close the little lid and leave it to, leave it to cook. 38 00:03:01,977 --> 00:03:04,636 So (whooooo) 39 00:03:12,939 --> 00:03:18,788 And well, this is, uh, slightly overkill but it provides a full face mask. 40 00:03:18,798 --> 00:03:23,107 Gloves again, and, uh, fingers crossed! 41 00:03:37,007 --> 00:03:38,796 Fantastic! 42 00:03:40,415 --> 00:03:43,242 Now that's a sink hole appearing 43 00:03:51,822 --> 00:03:53,251 Hopefully that will fill up the sink hole. 44 00:04:04,401 --> 00:04:07,991 Um, ok. Well I'm very relieved. That seems to have come out ok. 45 00:04:07,991 --> 00:04:11,554 It's a bit like making jelly, only a thousand degrees Celsius more. 46 00:04:12,574 --> 00:04:15,514 Now what's going to happen is that's gonna cool down. 47 00:04:15,514 --> 00:04:27,385 And then we'll take it to our marvelous engineer, Davey Brotnell, and he will machine it down to a beautiful cylinder 55 mm long and 35 mm in diameter. 48 00:04:27,385 --> 00:04:31,655 And then it will go to America to a periodic table.