WEBVTT 00:00:07.867 --> 00:00:11.598 Imagine, for a second, a duck teaching a french class, 00:00:11.598 --> 00:00:15.167 a ping-pong match in orbit around a black hole, 00:00:15.167 --> 00:00:17.788 a dolphin balancing a pineapple. 00:00:17.788 --> 00:00:21.277 You probably haven't actually seen any of these things, 00:00:21.277 --> 00:00:23.937 but you could imagine them instantly. 00:00:23.937 --> 00:00:27.618 How does your brain produce an image of something you've never seen? 00:00:27.618 --> 00:00:28.978 That may not seem hard, 00:00:28.978 --> 00:00:31.948 but that's only because we're so used to doing it. 00:00:31.948 --> 00:00:34.629 It turns out that this is actually a complex problem 00:00:34.629 --> 00:00:38.818 that requires sophisticated coordination inside your brain. 00:00:38.818 --> 00:00:41.758 That's because to create these new, weird images, 00:00:41.758 --> 00:00:46.667 your brain takes familiar pieces and assembles them in new ways, 00:00:46.667 --> 00:00:49.789 like a collage made from fragments of photos. 00:00:49.789 --> 00:00:53.329 The brain has to juggle a sea of thousands of electrical signals 00:00:53.329 --> 00:00:58.059 getting them all to their destination at precisely the right time. 00:00:58.059 --> 00:00:59.779 When you look at an object, 00:00:59.779 --> 00:01:03.658 thousands of neurons in your posterior cortex fire. 00:01:03.658 --> 00:01:07.018 These neurons encode various characteristics of the object - 00:01:07.018 --> 00:01:11.159 spiky, fruit, brown, green, and yellow. 00:01:11.159 --> 00:01:15.540 This synchronous firing strengthens the connections between that set of neurons, 00:01:15.540 --> 00:01:20.095 linking them together into what's known as a neuronal ensemble, 00:01:20.095 --> 00:01:22.300 in this case the one for pineapple. 00:01:22.300 --> 00:01:25.329 In neuroscience, this is called the Hebbian principle, 00:01:25.329 --> 00:01:28.839 neurons that fire together wire together. 00:01:28.839 --> 00:01:30.949 If you try to imagine a pineapple later, 00:01:30.949 --> 00:01:35.850 the whole ensemble will light up, assembling a complete mental image. 00:01:35.850 --> 00:01:39.029 Dolphins are encoded by a different neuronal ensemble. 00:01:39.029 --> 00:01:41.050 In fact, every object that you've seen 00:01:41.050 --> 00:01:45.290 is encoded by a neuronal ensemble associated with it, 00:01:45.290 --> 00:01:49.240 the neurons wired together by that synchronized firing. 00:01:49.240 --> 00:01:52.510 But this principle doesn't explain the infinite number of objects 00:01:52.510 --> 00:01:57.240 that we can conjure up in our imaginations without ever seeing them. 00:01:57.240 --> 00:02:02.480 The neuronal ensemble for a dolphin balancing a pineapple doesn't exist. 00:02:02.480 --> 00:02:04.922 So how come you can imagine it anyway? 00:02:04.922 --> 00:02:07.760 One hypothesis, called the Mental Synthesis Theory, 00:02:07.760 --> 00:02:11.130 says that, again, timing is key. 00:02:11.130 --> 00:02:13.941 If the neuronal ensembles for the dolphin and pineapple 00:02:13.941 --> 00:02:16.172 are activated at the same time, 00:02:16.172 --> 00:02:20.761 we can perceive the two separate objects as a single image. 00:02:20.761 --> 00:02:24.041 But something in your brain has to coordinate that firing. 00:02:24.041 --> 00:02:27.521 One plausible candidate is the prefrontal cortex, 00:02:27.521 --> 00:02:31.301 which is involved in all complex cognitive functions. 00:02:31.301 --> 00:02:35.172 Prefrontal cortex neurons are connected to the posterior cortex 00:02:35.172 --> 00:02:40.040 by long, spindly cell extensions called neural fibers. 00:02:40.040 --> 00:02:44.339 The mental synthesis theory proposes that like a puppeteer pulling the strings, 00:02:44.339 --> 00:02:47.869 the prefrontal cortex neurons send electrical signals 00:02:47.869 --> 00:02:49.582 down these neural fibers 00:02:49.582 --> 00:02:53.410 to multiple ensembles in the posterior cortex. 00:02:53.410 --> 00:02:56.292 This activates them in unison. 00:02:56.292 --> 00:02:59.409 If the neuronal ensembles are turned on at the same time, 00:02:59.409 --> 00:03:04.342 you experience the composite image just as if you'd actually seen it. 00:03:04.342 --> 00:03:06.551 This conscious purposeful synchronization 00:03:06.551 --> 00:03:09.852 of different neuronal ensembles by the prefrontal cortex 00:03:09.852 --> 00:03:12.052 is called mental synthesis. 00:03:12.052 --> 00:03:13.813 In order for mental sythesis to work, 00:03:13.813 --> 00:03:19.303 signals would have to arrive at both neuronal ensembles at the same time. 00:03:19.303 --> 00:03:21.073 The problem is that some neurons 00:03:21.073 --> 00:03:25.083 are much farther away from the prefrontal cortex than others. 00:03:25.083 --> 00:03:28.453 If the signals travel down both fibers at the same rate, 00:03:28.453 --> 00:03:31.163 they'd arrive out of sync. 00:03:31.163 --> 00:03:33.583 You can't change the length of the connections, 00:03:33.583 --> 00:03:37.044 but your brain, especially as it develops in childhood, 00:03:37.044 --> 00:03:40.884 does have a way to change the conduction velocity. 00:03:40.884 --> 00:03:45.534 Neural fibers are wrapped in a fatty substance called myelin. 00:03:45.534 --> 00:03:47.343 Myelin is an insulator 00:03:47.343 --> 00:03:51.554 and speeds up the electrical signals zipping down the nerve fiber. 00:03:51.554 --> 00:03:55.850 Some neural fibers have as many as 100 layers of myelin. 00:03:55.850 --> 00:03:57.754 Others only have a few. 00:03:57.754 --> 00:04:00.055 And fibers with thicker layers of myelin 00:04:00.055 --> 00:04:04.154 can conduct signals 100 times faster or more 00:04:04.154 --> 00:04:06.565 than those with thinner ones. 00:04:06.565 --> 00:04:09.995 Some scientists now think that this difference in myelination 00:04:09.995 --> 00:04:13.835 could be the key to uniform conduction time in the brain, 00:04:13.835 --> 00:04:16.925 and consequently, to our mental synthesis ability. 00:04:16.925 --> 00:04:20.255 A lot of this myelination happens in childhood, 00:04:20.255 --> 00:04:21.814 so from an early age, 00:04:21.814 --> 00:04:26.115 our vibrant imaginations may have a lot to do with building up brains 00:04:26.115 --> 00:04:28.381 whose carefully myelinated connections 00:04:28.381 --> 00:04:31.824 can craft creative symphonies throughout our lives.