字幕表 動画を再生する 英語字幕をプリント Cobalt is element number 27, between iron 26 and nickel 28, and like most elements, it's really quite interesting It is a catalyst It can be used in magnets It is important in the batteries that we have in all our modern electronic equipments and Above all it is associated with the color blue. The element or its compounds has been known for a long time because it's been used for coloring glass. I found in my cupboard at home quite a nice glass jar which everybody has told me is a 19th century Christmas tree light with a candle in it though i'm sure some viewers will tell me it's something more boring But i still think it's a Christmas tree light and you can see it has got this glorious, blue color. Brady - "Did you buy it in the 19th century?" I can't remember when I bought it but it was a long time ago. They add a small amount of cobalt Into the melt when they're making the glass and so you get isolated Ions of cobalt, which have this nice blue color. Cobalt itself is a shiny metal if it's polished and It's relatively, dense. It's quite heavy to hold. It's used principally in alloys with other Metals it used to be used a lot in making magnets though now You can get more powerful magnets using rare earths Because cobalt is a so-called transition metal The ions of cobalt say cobalt 2+, that's cobalt with two electrons removed it's usually not naked, it will be coordinated by other compounds For example if you, make it using water You get six water molecules round the cobalt, so here you can see cobalt in the middle with six water molecules around it. Now you might ask, how can you form so many bonds, and the answer is that the interaction is partly electrostatic. The negative oxygen interacting with the positive cobalt. If you heat cobalt chloride, which is beautiful red colored crystals to high temperature, you can drive off the water and make a sort of purplish powder. We found a lovely really old sample of anhydrous (without water), cobalt chloride in a bottle that still sealed up with its original wrapping. We felt we really didn't have the heart to destroy this historic sample to destroy the wrapping, so you'll have to look at it through the glass. We had another sample of anhydrous cobalt chloride, where the bottle had split so air and water could get in and you can see it goes back to the pinkish color So we've got two demonstrations for you the first one is to demonstrate how in solution you can remove the water and substitute it with chloride ions, by using concentrated hydrochloric acid. We were so excited to do this that the first time, we didn't do it very, well We had a test tube of cobalt chloride solution Nice the pinkish color, and try dropping in concentrated hydrochloric acid but although you could see some changes of color, the concentration of the acid was not enough. So, we reversed it and dropped the pink solution into the colorless hydrochloric acid so now we had a whole test tube of hydrochloric acid And what we saw and I hope you can, is that as the pink solution goes in it goes bright blue and the bright blue is color is due to Cobalt ions with four chloride ions so it goes to (CoCl4)2- going from cobalt 2+ to 2- ions. And the striking thing is of course that it's a much darker color, even though we're diluting it If you drop the cobalt chloride into water, you see almost no color, because it's so dilute. So the reason why you get this very intense color is because of the change of the shape of the atoms immediately around the cobalt, going from six round the cobalt to only four. And this change of shape changes the quantum mechanical rules, in which the electrons are interacting with light So in the second experiment i want you to see what happens if you drop cobalt chloride solution into sodium hydroxide, quite concentrated and you would expect to see a precipitate of cobalt hydroxide, which is pink. Now watch carefully. As it goes in you get a precipitate a, solid but it's bright blue! And then as you watch, really quite slowly and satisfyingly, it gradually goes pink to make the product that you expect. So this is an example of a reaction, where the starting material goes through some sort of intermediate compound and then makes the product. And it makes the intermediate very quickly and then slowly it goes to the product And what's happening is that first of all, you get a mixed salt where you have both hydroxide and chloride which is still insoluble so it precipitates. And then, slowly, and it's slow because it's in the solid state and has to redissolve, the chloride is replaced by hydroxide to give you the pink color. and it's really quite mesmerizing, how these pink crystals rain down Cobalt is also very important as a catalyst It is used in a variety of industrial processes, particularly a process for converting natural gas, or rather a mixture of carbon monoxide and hydrogen, which can be made from natural gas, and has the rather amusing name of syngas for synthesis gas, and using a cobalt catalyst you can then convert it to liquid fuels for cars or lorries And the advantage is that you can take isolated gas fields, where there's natural gas (methane) and convert it into liquid fuel that can then be transported Cobalt is also very toxic We had some powdered cobalt, so-called cobalt sponge And Neil, our technician, was really quite nervous of this poisonous powder, but cobalt is also vital for life. It occurs in a molecule called vitamin B12 which is present in living organisms in rather a low concentration, but catalyzes a whole series of important biological reactions And the structure vitamin B12, was determined, by the british chemist Dorothy Hodgkin, who was the only woman who's won the Nobel Prize for Chemistry from the UK So it is really a very historic structure. So this is Neil's new device. It's a very very fancy erection. Potentially we've used a laboratory stand, and we have an eyelet. So this is just to act as a point, which we can raise up our cesium on a piece of string.
B1 中級 コバルト - 動画の周期表 (Cobalt - Periodic Table of Videos) 3 0 林宜悉 に公開 2021 年 01 月 14 日 シェア シェア 保存 報告 動画の中の単語