Nuclear Reactors vs. Nuclear Weapons - By MITK12Videos
Transcript
| 00:0-1 | a nuclear reactor and a nuclear weapon are about as | |
| 00:02 | similar as a hamster and an alligator . They're both | |
| 00:05 | made of cells , but one is clearly more dangerous | |
| 00:07 | than the other thing in common between nuclear weapons and | |
| 00:16 | nuclear reactors is they're both powered by fissile isotopes like | |
| 00:19 | uranium to 35 or plutonium 2 39 . Fissile isotopes | |
| 00:23 | are special elements that break apart when neutrons hit them | |
| 00:26 | . When this happens , they release more neutrons and | |
| 00:28 | little atoms we call fission products which carry off a | |
| 00:31 | lot of energy and nuclear reactors . This energy is | |
| 00:34 | released over a long period of time , whereas in | |
| 00:36 | weapons it's released all at once instantaneously . So fissile | |
| 00:40 | isotopes are the key ingredients in both nuclear reactors and | |
| 00:44 | nuclear weapons , but that's where the similarity stops the | |
| 00:47 | difference . One of the many differences is that a | |
| 00:49 | nuclear weapon is almost pure fizzle material . It's about | |
| 00:54 | 90% of the fissile isotopes . Either uranium to 35 | |
| 00:57 | or plutonium 239 . Whereas reactor fuel is only about | |
| 01:01 | five and just getting a bunch of uranium and plutonium | |
| 01:04 | together doesn't make a weapon . If you lit a | |
| 01:06 | block of uranium 2 35 on fire , it would | |
| 01:09 | burn chemically . There'd be a fire just like if | |
| 01:11 | you let any other flammable material on fire , but | |
| 01:14 | it would not be a nuclear explosion , you actually | |
| 01:16 | have to compress it so much that you get the | |
| 01:19 | items to slam together much denser than they'd normally be | |
| 01:22 | . So a nuclear weapon . There's usually some sort | |
| 01:25 | of a core of uranium plutonium in pieces and around | |
| 01:29 | that is a bunch of explosive that smashes them into | |
| 01:31 | each other and around that is some sort of a | |
| 01:33 | shell that contains the explosion until it gets big enough | |
| 01:36 | . These are exceedingly difficult to make if you took | |
| 01:40 | millions of sticks of dynamite and put them around the | |
| 01:42 | sphere of uranium and blew them all up at the | |
| 01:44 | exact same time , the force would not be large | |
| 01:47 | enough to compact the uranium to make a weapon . | |
| 01:49 | If you got the right kind of explosive and surrounded | |
| 01:52 | this fear of uranium with the explosive and got it | |
| 01:54 | all to go off at the same time , it | |
| 01:56 | still wouldn't make a weapon if you took a whole | |
| 01:58 | bunch of bricks of uranium and put them all together | |
| 02:01 | and then drove a tanker full of gas next to | |
| 02:03 | it and had a whole bunch of high explosive blowing | |
| 02:05 | up all around it . If you had enough uranium | |
| 02:08 | to go supercritical , it would very , very briefly | |
| 02:12 | , you would get a quick pulse of neutrons at | |
| 02:14 | which point everything would heat up and blow apart and | |
| 02:17 | once all the uranium in different pieces too far away | |
| 02:20 | than reaction stops without the proper physics and design , | |
| 02:23 | which has taken countries like ours years to do . | |
| 02:26 | The best you could do is a Michael Bay style | |
| 02:28 | explosion . But you couldn't actually get a nuclear explosion | |
| 02:32 | . I've just described what took the Manhattan project about | |
| 02:35 | five years to do and tens of thousands of absolutely | |
| 02:38 | brilliant scientists , some of whom won the Nobel prize | |
| 02:41 | in order to use the MIT reactor fuel to make | |
| 02:44 | a weapon . Yeah , that would be difficult . | |
| 02:46 | That's the definition of easier said than done . Not | |
| 02:49 | only would you have to figure out how to put | |
| 02:51 | the weapon together , but you have to physically get | |
| 02:53 | to the reactor's fuel and that's basically impossible . The | |
| 02:56 | building is about four ft thick of rebar enforced concrete | |
| 03:01 | . That's actually been simulated to take a loaded plane | |
| 03:04 | crash . Because that's one of the safety criteria for | |
| 03:07 | reactors in this country , you have to be able | |
| 03:09 | to fly a plane into it and it shouldn't break | |
| 03:11 | apart . That doesn't even count the security inside the | |
| 03:14 | building , let alone the swat teams that would swarm | |
| 03:16 | the place . If anyone even tried to break in | |
| 03:18 | . But let's say the terrorists got past all of | |
| 03:20 | that , then they still have to get to the | |
| 03:22 | fuel itself , which is normally kept behind a lot | |
| 03:25 | of shielding to keep it safe so we can work | |
| 03:27 | with it . So if they took away the lead | |
| 03:29 | , the concrete and the steel shielding , they'd be | |
| 03:31 | faced with the fuel itself , which is so radioactive | |
| 03:34 | that it would kill them on contact . Even if | |
| 03:36 | somebody were to steal enough material to make a weapon | |
| 03:39 | , you can't just put it together and have a | |
| 03:41 | weapon . It doesn't work . There's so much other | |
| 03:43 | stuff in the fuel . Most light water reactor fuels | |
| 03:46 | in this country are made of uranium dioxide . You | |
| 03:49 | put oxygen in the way of those uranium atoms doesn't | |
| 03:51 | work anymore . It works as fuel , but not | |
| 03:54 | as a weapon , reactor fuels only about 5% uranium | |
| 03:57 | 2 35 . And there's other structural materials , there's | |
| 04:00 | steel holding the thing up , there's water surrounding it | |
| 04:03 | , there , zirconium alloys holding the fuel pins of | |
| 04:06 | fuel rods in . There's all this other stuff that | |
| 04:08 | would have to be chemically separated . Another difference between | |
| 04:11 | reactors and weapons is the way the chain reaction is | |
| 04:14 | controlled . A reactor is a tightly controlled chain reaction | |
| 04:18 | with negative feedback . So if anything goes wrong , | |
| 04:20 | the reaction stops . A nuclear bomb is an uncontrolled | |
| 04:24 | chain reaction designed to get as hot as possible , | |
| 04:27 | as fast as possible . So when you hear the | |
| 04:29 | word chain reaction , you might automatically think of something | |
| 04:33 | that's out of control , but it's actually really hard | |
| 04:36 | to keep a reactor going . So let's say you | |
| 04:38 | had a certain number of uranium 2 35 atoms every | |
| 04:42 | time one of those uranium atom splits apart it gives | |
| 04:46 | off two or three neutrons which could cause another uranium | |
| 04:50 | atom to split apart . But not everyone does . | |
| 04:53 | Some of them leak out of the reactor and get | |
| 04:55 | absorbed by the shielding . Some of them get absorbed | |
| 04:57 | by other materials in the reactor and some of them | |
| 05:00 | can get even captured by uranium 2 35 without inducing | |
| 05:04 | fission . As the fission reaction proceeds more and more | |
| 05:08 | , other stuff builds up . And that other stuff | |
| 05:10 | which we call the fission products absorb some of those | |
| 05:13 | neutrons away and make them unavailable to keep the chain | |
| 05:16 | reaction going . Also , when a fission reaction heats | |
| 05:19 | up , it causes the atoms to spread out , | |
| 05:21 | making it harder for some of those neutrons to hit | |
| 05:23 | other fuel items and keep the reaction going . In | |
| 05:26 | addition to that , there is control rods , there | |
| 05:28 | are materials that are really , really good at absorbing | |
| 05:31 | neutrons like boron , daphne , um or gadolinium , | |
| 05:34 | and you can simply stick those down into the reactor | |
| 05:37 | to absorb away the neutrons and shut down the chain | |
| 05:39 | reaction . The same sorts of reactions are happening in | |
| 05:43 | a nuclear power plants and a nuclear bomb , but | |
| 05:45 | in a nuclear bomb , they're happening quintillion of times | |
| 05:48 | faster and it's all over in a split second . | |
| 05:50 | The whole nuclear part of the explosion takes less than | |
| 05:52 | a second . And in a nuclear power plant , | |
| 05:55 | you're releasing that same energy over years or decades in | |
| 05:59 | a controlled way that we can harness . |
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