1 00:00:00,000 --> 00:00:02,916 [MUSIC PLAYING] 2 00:00:07,186 --> 00:00:09,060 JESSICA HARROP: Hi, I'm Jessica and today I'm 3 00:00:09,060 --> 00:00:11,790 going to be talking about a chemical demonstration called 4 00:00:11,790 --> 00:00:13,410 the Briggs-Rauscher Reaction. 5 00:00:16,059 --> 00:00:19,110 This reaction was discovered by two San Francisco-area 6 00:00:19,110 --> 00:00:23,100 high school chemistry teachers, Briggs and Rauscher, 7 00:00:23,100 --> 00:00:24,690 who were working in a lab to come up 8 00:00:24,690 --> 00:00:27,720 with a visually striking way to demonstrate an oscillating 9 00:00:27,720 --> 00:00:30,630 clock reaction, 10 00:00:30,630 --> 00:00:34,860 Let's watch MIT's Dr. John Dolhun show us the reaction. 11 00:00:34,860 --> 00:00:37,620 Here he is at the Cambridge Science Festival. 12 00:00:37,620 --> 00:00:38,290 JOHN DOLHUN: OK. 13 00:00:38,290 --> 00:00:41,910 So what I'm going to do is I'm going to pour three colorless 14 00:00:41,910 --> 00:00:45,630 solutions into this beaker. 15 00:00:45,630 --> 00:00:49,560 Solution number one, and I'm going to use kitchen chemistry, 16 00:00:49,560 --> 00:00:52,200 so I'm using my eye here. 17 00:00:52,200 --> 00:00:53,400 Let me just see. 18 00:00:53,400 --> 00:00:54,480 OK, there we are. 19 00:01:00,610 --> 00:01:01,375 Second solution. 20 00:01:06,430 --> 00:01:07,575 And the third solution. 21 00:01:48,830 --> 00:01:50,290 JESSICA HARROP: So what happened? 22 00:01:50,290 --> 00:01:55,000 Dr. Dolhun mixed three clear, colorless solutions together. 23 00:01:55,000 --> 00:01:57,130 The first solution contains potassium 24 00:01:57,130 --> 00:02:00,160 iodate and sulfuric acid dissolved in water. 25 00:02:03,140 --> 00:02:06,680 The second solution is malonic acid and manganese sulfate 26 00:02:06,680 --> 00:02:08,449 monohydrate in water. 27 00:02:11,470 --> 00:02:15,520 And the third is hydrogen peroxide in water. 28 00:02:15,520 --> 00:02:18,400 And when mixed together, things get complicated. 29 00:02:18,400 --> 00:02:20,320 The overall reaction is this. 30 00:02:28,460 --> 00:02:32,120 So iodate, hydrogen peroxide, malonic acid 31 00:02:32,120 --> 00:02:34,280 in the presence of sulfuric acid, 32 00:02:34,280 --> 00:02:40,160 reacts to produce this compound-- oxygen and water. 33 00:02:40,160 --> 00:02:42,710 But think about the reaction this way. 34 00:02:42,710 --> 00:02:45,800 It's equivalent to saying that metal and plastic react 35 00:02:45,800 --> 00:02:47,600 to produce a bicycle. 36 00:02:47,600 --> 00:02:49,460 In reality, there are many steps that 37 00:02:49,460 --> 00:02:52,310 occur between those raw materials and the finished 38 00:02:52,310 --> 00:02:53,450 result. 39 00:02:53,450 --> 00:02:56,960 And the Briggs-Rauscher Reaction is similar. 40 00:02:56,960 --> 00:02:59,360 Here are the many subreactions that 41 00:02:59,360 --> 00:03:03,320 occur to get from the reactants to the products. 42 00:03:03,320 --> 00:03:05,870 What we see is a cycle from colorless 43 00:03:05,870 --> 00:03:09,020 to amber to dark blue. 44 00:03:12,670 --> 00:03:15,580 And as these reactions run, the relative amounts 45 00:03:15,580 --> 00:03:17,860 of the reactants and the products 46 00:03:17,860 --> 00:03:20,230 dictate the color of the solution. 47 00:03:20,230 --> 00:03:23,810 I2 is amber. 48 00:03:23,810 --> 00:03:27,610 I minus is colorless. 49 00:03:27,610 --> 00:03:30,820 And I3 minus is deep blue when it interacts 50 00:03:30,820 --> 00:03:34,470 with starch in the solution. 51 00:03:34,470 --> 00:03:40,600 Triiodide is formed when iodine and iodide interact. 52 00:03:40,600 --> 00:03:45,060 And this cycle continues until all the reactants are used up. 53 00:03:45,060 --> 00:03:48,470 Hope you enjoyed the video and I'll see you next time.