WEBVTT 00:00:06.826 --> 00:00:08.030 What do silk, 00:00:08.030 --> 00:00:08.707 DNA, 00:00:08.707 --> 00:00:09.470 wood, 00:00:09.470 --> 00:00:10.298 balloons, 00:00:10.298 --> 00:00:12.930 and Silly Putty all have in common? 00:00:12.930 --> 00:00:14.719 They're polymers. 00:00:14.719 --> 00:00:17.152 Polymers are such a big part of our lives 00:00:17.152 --> 00:00:18.608 that it's virtually impossible 00:00:18.608 --> 00:00:20.832 to imagine a world without them, 00:00:20.832 --> 00:00:22.416 but what the heck are they? 00:00:22.416 --> 00:00:24.226 Polymers are large molecules 00:00:24.226 --> 00:00:26.890 made of small units called monomers 00:00:26.890 --> 00:00:29.773 linked together like the railroad cars from a train. 00:00:29.773 --> 00:00:31.302 Poly means many, 00:00:31.302 --> 00:00:32.800 and mono means one, 00:00:32.800 --> 00:00:35.683 and mers or mero means parts. 00:00:35.683 --> 00:00:37.853 Many polymers are made by repeating 00:00:37.853 --> 00:00:40.689 the same small monomer over and over again 00:00:40.689 --> 00:00:42.481 while others are made from two monomers 00:00:42.481 --> 00:00:44.404 linked in a pattern. 00:00:44.404 --> 00:00:46.932 All living things are made of polymers. 00:00:46.932 --> 00:00:49.459 Some of the organic molecules in organisms 00:00:49.459 --> 00:00:50.788 are small and simple, 00:00:50.788 --> 00:00:53.943 having only one of a few functional groups. 00:00:54.467 --> 00:00:57.372 Others, especially those that play structural roles 00:00:57.372 --> 00:00:59.071 or store genetic information, 00:00:59.071 --> 00:01:00.838 are macromolecules. 00:01:00.838 --> 00:01:04.254 In many cases, these macromolecules are polymers. 00:01:04.254 --> 00:01:06.636 For example, complex carbohydrates 00:01:06.636 --> 00:01:08.790 are polymers of simple sugars, 00:01:08.790 --> 00:01:11.094 proteins are polymers of amino acids, 00:01:11.094 --> 00:01:13.758 and nucleic acids, DNA and RNA, 00:01:13.758 --> 00:01:15.718 which contain our genetic information, 00:01:15.718 --> 00:01:18.249 are polymers of nucleotides. 00:01:18.249 --> 00:01:19.546 Trees and plants are made 00:01:19.546 --> 00:01:21.515 of the polymer cellulose. 00:01:21.515 --> 00:01:24.485 It's the tough stuff you find in bark and stems. 00:01:24.485 --> 00:01:25.177 Feathers, 00:01:25.177 --> 00:01:25.726 fur, 00:01:25.726 --> 00:01:26.263 hair, 00:01:26.263 --> 00:01:27.136 and fingernails 00:01:27.136 --> 00:01:29.183 are made up of the protein keratin, 00:01:29.183 --> 00:01:30.773 also a polymer. 00:01:30.773 --> 00:01:32.423 It doesn't stop there. 00:01:32.423 --> 00:01:33.923 Did you know that the exoskeletons 00:01:33.923 --> 00:01:36.431 of the largest phylum in the animal kingdom, 00:01:36.431 --> 00:01:37.448 the arthropods, 00:01:37.448 --> 00:01:39.328 are made of the polymer chitin? 00:01:39.928 --> 00:01:41.660 Polymers also form the basis 00:01:41.660 --> 00:01:44.691 for synthetic fibers, rubbers, and plastics. 00:01:44.691 --> 00:01:48.076 All synthetic polymers are derived from petroleum oil 00:01:48.076 --> 00:01:51.276 and manufactured through chemical reactions. 00:01:51.276 --> 00:01:53.442 The two most common types of reactions 00:01:53.442 --> 00:01:54.710 used to make polymers 00:01:54.710 --> 00:01:55.939 are addition reactions 00:01:55.939 --> 00:01:58.143 and condensation reactions. 00:01:58.143 --> 00:01:59.465 In addition reactions, 00:01:59.465 --> 00:02:02.553 monomers simply add together to form the polymer. 00:02:02.553 --> 00:02:04.608 The process starts with a free radical, 00:02:04.608 --> 00:02:07.657 a species with an unpaired electron. 00:02:07.657 --> 00:02:08.961 The free radical attacks 00:02:08.961 --> 00:02:11.524 and breaks the bonds to form new bonds. 00:02:11.524 --> 00:02:13.606 This process repeats over and over 00:02:13.606 --> 00:02:15.603 to create a long-chained polymer. 00:02:15.603 --> 00:02:17.272 In condensation reactions, 00:02:17.272 --> 00:02:19.101 a small molecule, such as water, 00:02:19.101 --> 00:02:22.407 is produced with each chain-extending reaction. 00:02:22.407 --> 00:02:23.933 The first synthetic polymers 00:02:23.933 --> 00:02:25.386 were created by accident 00:02:25.386 --> 00:02:28.107 as by-products of various chemical reactions. 00:02:28.107 --> 00:02:29.350 Thinking they were useless, 00:02:29.350 --> 00:02:31.627 chemists mostly discarded them. 00:02:31.627 --> 00:02:33.910 Finally, one named Leo Baekeland 00:02:33.910 --> 00:02:35.794 decided maybe his useless by-product 00:02:35.794 --> 00:02:38.086 wasn't so useless after all. 00:02:38.086 --> 00:02:39.715 His work resulted in a plastic 00:02:39.715 --> 00:02:42.178 that could be permanently squished into a shape 00:02:42.178 --> 00:02:44.521 using pressure and high temperatures. 00:02:44.521 --> 00:02:46.172 Since the name of this plastic, 00:02:46.172 --> 00:02:50.068 polyoxybenzylmethylenglycolanhydride, 00:02:50.068 --> 00:02:51.353 wasn't very catchy, 00:02:51.353 --> 00:02:53.594 advertisers called it Bakelite. 00:02:54.502 --> 00:02:56.468 Bakelite was made into telephones, 00:02:56.468 --> 00:02:57.355 children's toys, 00:02:57.355 --> 00:02:59.988 and insulators for electrical devices. 00:02:59.988 --> 00:03:02.104 With its development in 1907, 00:03:02.104 --> 00:03:04.608 the plastics industry exploded. 00:03:04.608 --> 00:03:06.621 One other familiar polymer, Silly Putty, 00:03:06.621 --> 00:03:08.774 was also invented by accident. 00:03:08.774 --> 00:03:09.859 During World War II, 00:03:09.859 --> 00:03:11.601 the United States was in desperate need 00:03:11.601 --> 00:03:14.190 of synthetic rubber to support the military. 00:03:14.190 --> 00:03:16.107 A team of chemists at General Electric 00:03:16.107 --> 00:03:17.626 attempted to create one 00:03:17.626 --> 00:03:20.176 but ended up with a gooey, soft putty. 00:03:20.176 --> 00:03:22.192 It wasn't a good rubber substitute, 00:03:22.192 --> 00:03:24.461 but it did have one strange quality: 00:03:24.461 --> 00:03:27.109 it appeared to be extremely bouncy. 00:03:27.109 --> 00:03:28.715 Silly Putty was born! 00:03:28.715 --> 00:03:30.926 Synthetic polymers have changed the world. 00:03:30.926 --> 00:03:32.018 Think about it. 00:03:32.018 --> 00:03:33.859 Could you imagine getting through a single day 00:03:33.859 --> 00:03:35.553 without using plastic? 00:03:35.553 --> 00:03:37.520 But polymers aren't all good. 00:03:37.520 --> 00:03:40.858 Styrofoam, for example, is made mainly of styrene, 00:03:40.858 --> 00:03:43.023 which has been identified as a possible carcinogen 00:03:43.023 --> 00:03:45.605 by the Environmental Protection Agency. 00:03:45.605 --> 00:03:47.735 As Styrofoam products are being made, 00:03:47.735 --> 00:03:51.025 or as they slowly deteriorate in landfills or the ocean, 00:03:51.025 --> 00:03:52.690 they can release toxic styrene 00:03:52.690 --> 00:03:54.359 into the environment. 00:03:54.359 --> 00:03:56.017 In addition, plastics that are created 00:03:56.017 --> 00:03:58.294 by addition polymerization reactions, 00:03:58.294 --> 00:03:59.352 like Styrofoam, 00:03:59.352 --> 00:04:00.210 plastic bags, 00:04:00.210 --> 00:04:01.212 and PVC, 00:04:01.212 --> 00:04:03.416 are built to be durable and food-safe, 00:04:03.416 --> 00:04:04.956 but that means that they don't break down 00:04:04.956 --> 00:04:06.366 in the environment. 00:04:06.366 --> 00:04:08.119 Millions of tons of plastics 00:04:08.119 --> 00:04:10.221 are dumped into landfills every year. 00:04:10.221 --> 00:04:12.462 This plastic doesn't biodegrade, 00:04:12.462 --> 00:04:13.524 it just breaks down 00:04:13.524 --> 00:04:15.560 into smaller and smaller pieces, 00:04:15.560 --> 00:04:16.729 affecting marine life 00:04:16.729 --> 00:04:19.734 and eventually making their way back to humans. 00:04:19.734 --> 00:04:21.724 Polymers can be soft or hard, 00:04:21.724 --> 00:04:22.937 squishy or solid, 00:04:22.937 --> 00:04:25.042 fragile or strong. 00:04:25.042 --> 00:04:27.326 The huge variation between 00:04:27.326 --> 00:04:28.240 means they can form 00:04:28.240 --> 00:04:30.605 an incredibly diverse array of substances, 00:04:30.605 --> 00:04:31.434 from DNA 00:04:31.434 --> 00:04:33.408 to nylon stockings. 00:04:33.408 --> 00:04:35.024 Polymers are so useful 00:04:35.024 --> 00:04:37.493 that we've grown to depend on them every day. 00:04:37.493 --> 00:04:38.680 But some are littering 00:04:38.680 --> 00:04:41.063 our oceans, cities, and waterways 00:04:41.063 --> 00:04:42.272 with effects on our health 00:04:42.272 --> 00:04:44.555 that we're only beginning to understand.