Would you like to inspect the original subtitles? These are the user uploaded subtitles that are being translated: 1 00:00:00,408 --> 00:00:02,818 Hey, it's me Destin, welcome back to Smarter Every Day. 2 00:00:02,818 --> 00:00:04,300 I love, 3 00:00:04,300 --> 00:00:05,133 laminar flow. 4 00:00:05,133 --> 00:00:06,977 And people send me tweets about laminar flow, 5 00:00:06,977 --> 00:00:08,498 all over the internet, its time to do, 6 00:00:08,498 --> 00:00:09,635 the laminar flow video. 7 00:00:09,635 --> 00:00:11,310 Check this out, big pool. 8 00:00:11,310 --> 00:00:14,103 We're going to see if we can make, laminar flow happen. 9 00:00:14,103 --> 00:00:16,542 I should be able to poke a hole, in this pool, 10 00:00:16,542 --> 00:00:18,191 and get a glassy looking jet, 11 00:00:18,191 --> 00:00:20,303 that comes out this pool. That's what laminar flow is. 12 00:00:20,303 --> 00:00:22,028 It's very orderly, looks like glass. 13 00:00:22,028 --> 00:00:24,079 Okay, so here we go, ready, 14 00:00:24,079 --> 00:00:27,497 three, two, this feels so wrong. 15 00:00:27,497 --> 00:00:29,377 Let's see if we get laminar flow, 16 00:00:29,377 --> 00:00:30,460 no, we don't. 17 00:00:34,703 --> 00:00:36,228 (laughs) 18 00:00:36,228 --> 00:00:37,697 Now I've got a hole in a pool. 19 00:00:37,697 --> 00:00:39,098 Okay, laminar flow is a function of geometry, 20 00:00:39,098 --> 00:00:40,665 obviously I had the wrong geometry. 21 00:00:40,665 --> 00:00:43,794 We're going to try a big spike, here we go. 22 00:00:43,794 --> 00:00:45,247 Oh golly. 23 00:00:45,247 --> 00:00:46,638 Okay. (Laughs) 24 00:00:46,638 --> 00:00:47,471 Alright. 25 00:00:48,613 --> 00:00:50,280 No, it doesn't work. 26 00:00:54,075 --> 00:00:56,177 So my shape's not right. 27 00:00:56,177 --> 00:00:57,407 My shape's not right, what do I do. 28 00:00:57,407 --> 00:00:59,946 Work, work, work, work with me. 29 00:00:59,946 --> 00:01:02,113 Ah, there we go, okay, so. 30 00:01:03,494 --> 00:01:05,406 I got laminar flow right here, 31 00:01:05,406 --> 00:01:09,074 and its going turbulent, right here. 32 00:01:09,074 --> 00:01:10,141 Why? 33 00:01:10,141 --> 00:01:12,515 Laminar flow is a function of the geometry, the velocity, 34 00:01:12,515 --> 00:01:13,544 and the kinematic viscosity, 35 00:01:13,544 --> 00:01:14,480 of the fluid that you're working with. 36 00:01:14,480 --> 00:01:16,795 Right now, my velocity, is not fast enough, 37 00:01:16,795 --> 00:01:18,687 to have laminar flow, because there's not enough pressure, 38 00:01:18,687 --> 00:01:20,134 so if I move it down, I should have more pressure. 39 00:01:20,134 --> 00:01:22,511 So, let's plug this back up, 40 00:01:22,511 --> 00:01:25,231 well now I have a problem. 41 00:01:25,231 --> 00:01:26,897 That's out. 42 00:01:26,897 --> 00:01:29,483 I'm doing a bad job of explaining laminar flow, 43 00:01:29,483 --> 00:01:32,595 what we need to do, we need to go, around the world, 44 00:01:32,595 --> 00:01:34,632 to different places I've observed laminar flow 45 00:01:34,632 --> 00:01:36,104 in the past several years. 46 00:01:36,104 --> 00:01:38,887 And we need to let me show you, various things 47 00:01:38,887 --> 00:01:40,350 that I've seen along the way. 48 00:01:40,350 --> 00:01:43,256 Laminar flow is orderly, all streamlines are parallel, 49 00:01:43,256 --> 00:01:44,888 and there's no mixing of the flow. 50 00:01:44,888 --> 00:01:46,525 It's all like how you would imagine, 51 00:01:46,525 --> 00:01:47,759 water flowing through pipe, 52 00:01:47,759 --> 00:01:49,590 everything is straight and parallel. 53 00:01:49,590 --> 00:01:52,137 Turbulent flow however, is chaotic, 54 00:01:52,137 --> 00:01:53,679 there's pressure fluctuations throughout, 55 00:01:53,679 --> 00:01:54,585 you get the idea. 56 00:01:54,585 --> 00:01:56,088 Engineers have this special term, 57 00:01:56,088 --> 00:01:57,252 called the Reynolds Number. 58 00:01:57,252 --> 00:01:59,232 To try and help predict, what type of flow, 59 00:01:59,232 --> 00:02:00,498 they might be dealing with. 60 00:02:00,498 --> 00:02:01,721 The top of the equation are the things 61 00:02:01,721 --> 00:02:03,392 that describe the flow itself, 62 00:02:03,392 --> 00:02:06,534 like the velocity, the density, the geometry, etc. 63 00:02:06,534 --> 00:02:09,342 But the bottom of the equation is viscosity of the fluid. 64 00:02:09,342 --> 00:02:12,135 Like how thick the fluid is, like water vs honey. 65 00:02:12,135 --> 00:02:13,494 A lower Reynolds Number, 66 00:02:13,494 --> 00:02:15,169 means that the flow is more laminar, 67 00:02:15,169 --> 00:02:16,807 and in my opinion, more awesome. 68 00:02:16,807 --> 00:02:19,711 But a high Reynolds Number means that it's more turbulent. 69 00:02:19,711 --> 00:02:20,942 So if you look at the equation, 70 00:02:20,942 --> 00:02:22,705 you can kinda see what's going on here. 71 00:02:22,705 --> 00:02:24,128 If you have more viscosity, 72 00:02:24,128 --> 00:02:26,380 that means Reynolds Number gets smaller, 73 00:02:26,380 --> 00:02:28,807 therefore the flow is more laminar. 74 00:02:28,807 --> 00:02:30,535 But if you increase the velocity of the flow, 75 00:02:30,535 --> 00:02:31,901 or the size of the flow, 76 00:02:31,901 --> 00:02:33,184 Reynolds Number gets bigger, 77 00:02:33,184 --> 00:02:35,408 therefore you have more turbulent flow. 78 00:02:35,408 --> 00:02:38,281 If you keep Reynolds Number and the mock number the same, 79 00:02:38,281 --> 00:02:41,072 you can make a model of whatever you're trying to fly, 80 00:02:41,072 --> 00:02:44,259 and you can get a good idea if turbulence or laminar flow 81 00:02:44,259 --> 00:02:45,092 is going to happen over the model. 82 00:02:45,092 --> 00:02:47,362 That's exactly what they did with the Saturn V, 83 00:02:47,362 --> 00:02:49,427 this is the big Saturn V right here. 84 00:02:49,427 --> 00:02:51,495 But in order to approximate what was going to happen, 85 00:02:51,495 --> 00:02:53,144 they made a wind tunnel model. 86 00:02:53,144 --> 00:02:54,594 You can use wind tunnel models, 87 00:02:54,594 --> 00:02:55,986 like this little four inch model. 88 00:02:55,986 --> 00:03:00,081 To approximate the flow, over the entire, Saturn V rocket. 89 00:03:00,081 --> 00:03:02,211 As flow comes through here, 90 00:03:02,211 --> 00:03:04,025 and goes across this Apollo capsule, 91 00:03:04,025 --> 00:03:06,018 if the string flickers as turbulent flow, 92 00:03:06,018 --> 00:03:08,295 if it's steady, it's laminar flow. 93 00:03:08,295 --> 00:03:09,665 Check this out. (whirring) 94 00:03:09,665 --> 00:03:11,969 So as we change the angle of attack, 95 00:03:11,969 --> 00:03:15,096 you can see the different types of flow, take place. 96 00:03:15,096 --> 00:03:16,957 It's a little hard to see it, with just the strings, 97 00:03:16,957 --> 00:03:18,992 but Sarah-Kate, who goes to school with my daughter, 98 00:03:18,992 --> 00:03:21,232 made an awesome science fair project. 99 00:03:21,232 --> 00:03:22,298 You've got to see this. 100 00:03:22,298 --> 00:03:24,889 Okay, to demonstrate laminar flow and turbulent flow, 101 00:03:24,889 --> 00:03:28,202 this is Sarah-Kate, science fair winner, extraordinaire. 102 00:03:28,202 --> 00:03:29,150 Right, - yes sir. 103 00:03:29,150 --> 00:03:30,087 - [Destin] You going to show us how it works? 104 00:03:30,087 --> 00:03:32,012 So NASA Glenn Research Center, 105 00:03:32,012 --> 00:03:33,815 and you just built it from the plans? 106 00:03:33,815 --> 00:03:34,785 - Yes sir, 107 00:03:34,785 --> 00:03:35,618 - [Destin] That's awesome. 108 00:03:35,618 --> 00:03:37,444 - [Sarah-Kate] I had parental supervision and guidance. 109 00:03:37,444 --> 00:03:38,801 So you have to pick your scent. 110 00:03:38,801 --> 00:03:41,676 - [Destin] Frankincense, dragons blood, that's pretty legit. 111 00:03:41,676 --> 00:03:43,265 Orange, that's got to be good. 112 00:03:43,265 --> 00:03:44,793 That's a weird smell. 113 00:03:44,793 --> 00:03:48,460 - [Sarah-Kate] Okay, now I'll blow them out. 114 00:03:49,840 --> 00:03:50,673 - [Destin] Okay, and so, 115 00:03:50,673 --> 00:03:52,421 that's going to make the smoke come through, 116 00:03:52,421 --> 00:03:53,811 this pipe right here right? 117 00:03:53,811 --> 00:03:54,644 - [Sarah-Kate] Yep. 118 00:03:54,644 --> 00:03:56,139 Now I'll turn on the fan. 119 00:03:56,139 --> 00:03:57,221 (fan whirs) 120 00:03:57,221 --> 00:03:59,721 - [Destin] So got to get the light correct, right? 121 00:03:59,721 --> 00:04:00,830 - [Sarah-Kate] Yep. 122 00:04:00,830 --> 00:04:02,910 - [Destin] Okay, so that's pulling it through, 123 00:04:02,910 --> 00:04:04,206 should we be able to see it, yet? 124 00:04:04,206 --> 00:04:05,775 - [Sarah-Kate] Yeah, you can already see it. 125 00:04:05,775 --> 00:04:07,559 - [Destin] You can already see, oh what the heck. 126 00:04:07,559 --> 00:04:08,642 You sure can, 127 00:04:09,821 --> 00:04:10,904 look at that. 128 00:04:12,032 --> 00:04:14,790 Oh that's cool, look at that. 129 00:04:14,790 --> 00:04:17,870 Okay, cool, so, laminar flow, 130 00:04:17,870 --> 00:04:20,164 are the straight lines that go across, correct? 131 00:04:20,165 --> 00:04:21,180 - [Sarah-Kate] Yep. 132 00:04:21,180 --> 00:04:22,973 - [Destin] So that's a zero angle of attack? 133 00:04:22,973 --> 00:04:24,077 - [Sarah-Kate] Yes. 134 00:04:24,077 --> 00:04:27,130 - [Destin] So give me a real high angle of attack. 135 00:04:27,130 --> 00:04:28,845 There you go, look at that. 136 00:04:28,845 --> 00:04:31,117 So we're getting flow separation, 137 00:04:31,117 --> 00:04:32,335 along the backside here, 138 00:04:32,335 --> 00:04:34,598 and we're getting turbulence back in here right? 139 00:04:34,598 --> 00:04:36,431 - [Sarah-Kate] Mm hmm. 140 00:04:37,439 --> 00:04:38,836 Let's see. 141 00:04:38,836 --> 00:04:39,669 - [Destin] This is like 142 00:04:39,669 --> 00:04:41,335 the coolest science fair project you've ever done? 143 00:04:41,335 --> 00:04:42,399 - [Sarah-Kate] It's the only science fair project 144 00:04:42,399 --> 00:04:43,349 I've ever done. 145 00:04:43,349 --> 00:04:45,011 (laughs) 146 00:04:45,011 --> 00:04:46,994 - [Destin] Look at that turbulence back there. 147 00:04:46,994 --> 00:04:49,617 So ultimately, what were you trying to learn here? 148 00:04:49,617 --> 00:04:51,788 - [Sarah-Kate] Basically, I was just trying to learn 149 00:04:51,788 --> 00:04:55,602 more about, airflow shapes, and flow separation, and stall. 150 00:04:55,602 --> 00:04:58,979 And make a good visual representation of all those things. 151 00:04:58,979 --> 00:05:00,786 - [Destin] Well I think you accomplished that. 152 00:05:00,786 --> 00:05:02,515 Look, man, look a it from this angle right here. 153 00:05:02,515 --> 00:05:06,579 You can see, you can see the separation back there. 154 00:05:06,579 --> 00:05:08,119 Look at that. 155 00:05:08,119 --> 00:05:10,380 That's a really good angle. 156 00:05:10,380 --> 00:05:11,748 This is an awesome experiment. 157 00:05:11,748 --> 00:05:13,534 Are you going, you're going to regionals now right? 158 00:05:13,534 --> 00:05:14,436 - [Sarah-Kate] Yes sir. 159 00:05:14,436 --> 00:05:15,487 - [Destin] You're going to win. 160 00:05:15,487 --> 00:05:16,320 Do it. 161 00:05:16,320 --> 00:05:17,884 If you've ever been to the Detroit airport, 162 00:05:17,884 --> 00:05:19,660 there's an awesome fountain, 163 00:05:19,660 --> 00:05:21,738 like right in the middle of the whole concourse area. 164 00:05:21,738 --> 00:05:23,764 And you can see laminar flow in action, 165 00:05:23,764 --> 00:05:25,554 programmed with computers. 166 00:05:25,554 --> 00:05:26,829 - [Destin] It's the awseomest fountain, 167 00:05:26,829 --> 00:05:28,496 let's go look at it. 168 00:05:32,259 --> 00:05:33,665 What do you call this flow? 169 00:05:33,665 --> 00:05:35,144 That flow right there. 170 00:05:35,144 --> 00:05:36,376 - Laminar flow. 171 00:05:36,376 --> 00:05:38,269 - [Destin] What's it called? - Laminar flow. 172 00:05:38,269 --> 00:05:39,204 - [Destin] Laminar flow, 173 00:05:39,204 --> 00:05:41,755 some daddies don't teach their kids cool words like this. 174 00:05:41,755 --> 00:05:44,005 - Oh, I already know alias. 175 00:05:44,885 --> 00:05:45,896 - [Destin] Yeah? 176 00:05:45,896 --> 00:05:46,899 - And all that other stuff. 177 00:05:46,899 --> 00:05:49,330 - [Destin] You don't appreciate this. 178 00:05:49,330 --> 00:05:50,163 - I do. 179 00:05:50,163 --> 00:05:53,723 - [Destin] You just don't, you just don't appreciate, what. 180 00:05:53,723 --> 00:05:56,973 You just don't appreciate laminar flow. 181 00:05:58,675 --> 00:05:59,617 Let's go. 182 00:05:59,617 --> 00:06:01,773 (phone buzzes) 183 00:06:01,773 --> 00:06:03,027 Dude. 184 00:06:03,027 --> 00:06:04,109 Did you get the funnel? 185 00:06:04,109 --> 00:06:06,903 Yep, alright, so here we go. 186 00:06:06,903 --> 00:06:07,787 Thank you. 187 00:06:07,787 --> 00:06:09,669 Ow my finger. 188 00:06:09,669 --> 00:06:11,355 Okay there we go. 189 00:06:11,355 --> 00:06:13,078 This is a Go-Pro right? 190 00:06:13,078 --> 00:06:14,669 So what's happening is, 191 00:06:14,669 --> 00:06:17,773 the flow is going into the funnel, 192 00:06:17,773 --> 00:06:19,445 and as the flow goes in there. 193 00:06:19,445 --> 00:06:22,727 All of the streamlines of the water, are lining up. 194 00:06:22,727 --> 00:06:24,381 And so its flowing parallel right, 195 00:06:24,381 --> 00:06:26,869 once you get all the flow going in one direction. 196 00:06:26,869 --> 00:06:30,227 You can divert the laminar flow, and the streamlines, 197 00:06:30,227 --> 00:06:32,055 stay in the same orientation. 198 00:06:32,055 --> 00:06:34,099 So look, you can start to make things like, 199 00:06:34,099 --> 00:06:36,144 sheets you see that? 200 00:06:36,144 --> 00:06:37,227 Look at that. 201 00:06:39,652 --> 00:06:40,735 It's working. 202 00:06:44,617 --> 00:06:46,076 That's got ridges on it. 203 00:06:46,076 --> 00:06:48,076 (gasps) 204 00:06:49,700 --> 00:06:51,845 Okay, look at this, so if you get 205 00:06:51,845 --> 00:06:53,154 all the laminar flow going in one direction. 206 00:06:53,154 --> 00:06:53,987 You can put things that, 207 00:06:53,987 --> 00:06:56,487 look at that it made a bubble. 208 00:06:58,166 --> 00:07:03,083 Okay, you can make a sheet, like a sphere, of laminar flow. 209 00:07:03,993 --> 00:07:06,257 Okay, so there's a really cool children museum, 210 00:07:06,257 --> 00:07:08,666 in Chattanooga, that I found this, 211 00:07:08,666 --> 00:07:10,883 and I put my phone up under it. 212 00:07:10,883 --> 00:07:14,383 Look at that, I could put my head in that. 213 00:07:16,415 --> 00:07:18,093 That is beautiful. 214 00:07:18,093 --> 00:07:21,926 This is probably my favorite kind of fountain. 215 00:07:23,158 --> 00:07:24,625 And the cool thing about it, 216 00:07:24,625 --> 00:07:27,620 is the flow rate at the center has to be high enough, 217 00:07:27,620 --> 00:07:29,685 so that, it's glassy, 218 00:07:29,685 --> 00:07:32,150 like you have enough flow to make a complete covering. 219 00:07:32,150 --> 00:07:33,429 But it's not too high, 220 00:07:33,429 --> 00:07:37,086 where you go turbulent at this location right here. 221 00:07:37,086 --> 00:07:38,010 Right there. 222 00:07:38,010 --> 00:07:39,920 See it's wanting to go turbulent, but it's not. 223 00:07:39,920 --> 00:07:42,619 And as, the water, drops off. 224 00:07:42,619 --> 00:07:47,015 There's enough volumetric flow, to cover and make it glassy, 225 00:07:47,015 --> 00:07:48,432 360 degrees here. 226 00:07:50,622 --> 00:07:51,619 Which is awesome. 227 00:07:51,619 --> 00:07:54,198 So what I'm going to do, is put my phone in there, 228 00:07:54,198 --> 00:07:56,822 and see if we can see through the laminar flow. 229 00:07:56,822 --> 00:07:58,080 Let's see if it's smooth enough. 230 00:07:58,080 --> 00:07:58,913 Okay, you ready? 231 00:07:58,913 --> 00:08:00,236 Another thing I like to think about, 232 00:08:00,236 --> 00:08:01,900 is the inverse square law, 233 00:08:01,900 --> 00:08:03,141 and the flow rate as it comes out. 234 00:08:03,141 --> 00:08:04,641 Anyway here we go. 235 00:08:13,821 --> 00:08:17,154 (muffled water flowing) 236 00:08:25,051 --> 00:08:26,697 That works doesn't it? 237 00:08:26,697 --> 00:08:30,491 So the next question is, can you hear me? 238 00:08:30,491 --> 00:08:32,729 So it's totally engulfed with water, 239 00:08:32,729 --> 00:08:33,917 I don't know if you can here me or not, 240 00:08:33,917 --> 00:08:36,861 but the microphone is probably full of water at this point, 241 00:08:36,861 --> 00:08:38,444 but let's try this. 242 00:08:39,499 --> 00:08:41,749 Can you hear me better now? 243 00:08:43,501 --> 00:08:45,001 I like this a lot. 244 00:08:47,063 --> 00:08:49,730 (water flowing) 245 00:08:58,934 --> 00:09:00,747 I like that a lot, okay. 246 00:09:00,747 --> 00:09:03,889 It's really fun, when you're 30 something years old, 247 00:09:03,889 --> 00:09:05,352 and you have to wait for the two year olds. 248 00:09:05,352 --> 00:09:07,465 So you can do you're little fluid experiment. 249 00:09:07,465 --> 00:09:10,350 I love laminar flow, and I want you to love it too. 250 00:09:10,350 --> 00:09:12,434 Prince Rupert, you're in my light, move. 251 00:09:12,434 --> 00:09:13,490 Thank you. 252 00:09:13,490 --> 00:09:16,722 Okay, so, the thing that I think is so neat here, 253 00:09:16,722 --> 00:09:18,778 is if you think about the volumetric flow rate, 254 00:09:18,778 --> 00:09:20,311 if it's not enough, 255 00:09:20,311 --> 00:09:22,178 you don't have water go all the way to the bottom. 256 00:09:22,178 --> 00:09:23,736 You see how it's breaking up here. 257 00:09:23,736 --> 00:09:28,736 But, if you control all of these variables, perfectly, 258 00:09:28,897 --> 00:09:32,481 you can make a fountain do exactly what you want. 259 00:09:32,481 --> 00:09:33,526 This is beautiful. 260 00:09:33,526 --> 00:09:36,501 I really respect people that design fountains like this, 261 00:09:36,501 --> 00:09:38,477 because it has to do with flow rate, 262 00:09:38,477 --> 00:09:41,166 has to do with, pressure, 263 00:09:41,166 --> 00:09:42,563 the nozzle geometry. 264 00:09:42,563 --> 00:09:45,256 Anything, can disturb, the flow. 265 00:09:45,256 --> 00:09:47,922 - [Destin] It's amazing watch, touch it, come here. 266 00:09:47,922 --> 00:09:49,112 - [Woman] Oh, it's shot, it's up, 267 00:09:49,112 --> 00:09:50,507 are we going to go up, and then down? 268 00:09:50,507 --> 00:09:51,996 - [Destin] Yeah, touch it, touch it. 269 00:09:51,996 --> 00:09:52,977 - Are we allowed to touch this? 270 00:09:52,977 --> 00:09:55,560 - [Destin] Well we're doing it. 271 00:09:58,206 --> 00:10:00,456 Ah that's so stinking cool, 272 00:10:01,331 --> 00:10:02,421 I love it. 273 00:10:02,421 --> 00:10:03,857 You know why I love it? 274 00:10:03,857 --> 00:10:04,795 Laminar flow. 275 00:10:04,795 --> 00:10:06,361 Can you imagine they had to perfectly level this, 276 00:10:06,361 --> 00:10:08,611 because that's gravity fed. 277 00:10:10,089 --> 00:10:11,631 And then you have to make sure the flow, 278 00:10:11,631 --> 00:10:14,631 into the orifice there, is perfectly 279 00:10:15,619 --> 00:10:16,616 perfectly level. 280 00:10:16,616 --> 00:10:19,199 All the way across, oh my gosh. 281 00:10:20,811 --> 00:10:24,316 This mall in Chicago wins, for the coolest fountain. 282 00:10:24,316 --> 00:10:25,851 And probably the number one reason, 283 00:10:25,851 --> 00:10:27,871 why I want you to love laminar flow, 284 00:10:27,871 --> 00:10:29,586 and this is not an exaggeration. 285 00:10:29,586 --> 00:10:33,151 We literally use laminar flow to protect the integrity 286 00:10:33,151 --> 00:10:34,370 of the moon rocks. 287 00:10:34,370 --> 00:10:36,154 And that is not an exaggeration. 288 00:10:36,154 --> 00:10:39,201 So, I'm about to show you a clip of how that works, 289 00:10:39,201 --> 00:10:40,544 and if you would like to consider 290 00:10:40,544 --> 00:10:42,718 subscribing to Smarter Every Day, while we watch this, 291 00:10:42,718 --> 00:10:44,405 this from a future episode. 292 00:10:44,405 --> 00:10:46,399 - Now that we're dressed in our bunny suits, 293 00:10:46,399 --> 00:10:47,829 we're going to go into our air shower, 294 00:10:47,829 --> 00:10:49,609 and we stay in there for one minute. 295 00:10:49,609 --> 00:10:52,227 And it's a laminar flow, 296 00:10:52,227 --> 00:10:53,536 - [Destin] You have no idea how much, 297 00:10:53,536 --> 00:10:54,629 - it separates between a less clean area, and a clean area. 298 00:10:54,629 --> 00:10:56,459 - [Destin] You have no idea how much I like laminar flow. 299 00:10:56,459 --> 00:10:57,292 (laughs) 300 00:10:57,292 --> 00:10:58,125 - [Destin] You don't even know, 301 00:10:58,125 --> 00:10:58,958 I can't even explain it to you. 302 00:10:58,958 --> 00:11:00,391 - You really love it don't you. 303 00:11:00,391 --> 00:11:01,641 (laughs) - [Destin] I do. 304 00:11:01,641 --> 00:11:02,733 So here we go. 305 00:11:02,733 --> 00:11:03,981 Laminar flow. 306 00:11:03,981 --> 00:11:06,605 Is this going to make our hair fly around? 307 00:11:06,605 --> 00:11:07,941 - No, it's not that kind. 308 00:11:07,941 --> 00:11:09,852 - It's just really slow laminar flow. 309 00:11:09,852 --> 00:11:11,893 - In the meteorite lab, they have the little tunnels, 310 00:11:11,893 --> 00:11:13,892 that actually would make your hair flow, 311 00:11:13,892 --> 00:11:16,133 they found that stirred up more particles. 312 00:11:16,133 --> 00:11:17,181 So this was designed, 313 00:11:17,181 --> 00:11:18,501 - Turbulence was bad. - Exactly, yes. 314 00:11:18,501 --> 00:11:19,457 - That's why this is laminar. 315 00:11:19,457 --> 00:11:21,096 - Laminar good, turbulence, bad. 316 00:11:21,096 --> 00:11:24,275 - Got it, I dig it, I like laminar flow. 317 00:11:24,275 --> 00:11:25,400 - That's our minute up. 318 00:11:25,400 --> 00:11:26,233 - Is our minute up? - Yes. 319 00:11:26,233 --> 00:11:27,066 - [Destin] Our microwave is done. 320 00:11:27,066 --> 00:11:28,357 - [Andrea] So watch your step down. 321 00:11:28,357 --> 00:11:30,357 - I'm watching it, boom. 322 00:11:31,613 --> 00:11:32,696 Wow, alright. 323 00:11:33,709 --> 00:11:35,638 Okay, I hope you enjoyed this video, 324 00:11:35,638 --> 00:11:37,710 I'm going to do what's called, the soft sell. 325 00:11:37,710 --> 00:11:38,950 I'm just going to give an option to you. 326 00:11:38,950 --> 00:11:40,135 You can either take it or leave it. 327 00:11:40,135 --> 00:11:41,696 I like exploring the world, 328 00:11:41,696 --> 00:11:43,089 using goofy stuff like this. 329 00:11:43,089 --> 00:11:44,359 And I film stuff all over the world, 330 00:11:44,359 --> 00:11:46,721 and I throw it together in videos like this. 331 00:11:46,721 --> 00:11:48,366 If you would like to consider 332 00:11:48,366 --> 00:11:49,634 subscribing to Smarter Every Day. 333 00:11:49,634 --> 00:11:52,598 It's basically a declaration for your love of laminar flow, 334 00:11:52,598 --> 00:11:53,662 and low Reynolds Numbers. 335 00:11:53,662 --> 00:11:55,268 That's pretty much what it is at this point. 336 00:11:55,268 --> 00:11:56,539 So, if you would like to do that, 337 00:11:56,539 --> 00:11:59,729 you may subscribe, if you feel like this video earned it. 338 00:11:59,729 --> 00:12:01,195 And you could even hit the bell. 339 00:12:01,195 --> 00:12:02,693 If you're not ashamed of it. 340 00:12:02,693 --> 00:12:04,710 So, that's an option for ya. 341 00:12:04,710 --> 00:12:06,306 If you'd like to subscribe to Smarter Every Day, 342 00:12:06,306 --> 00:12:08,424 you can do that, if not, no big deal. 343 00:12:08,424 --> 00:12:09,573 Thank you to everyone, 344 00:12:09,573 --> 00:12:12,762 who sends me laminar flow pictures on twitter. 345 00:12:12,762 --> 00:12:14,353 I really enjoy them. 346 00:12:14,353 --> 00:12:17,607 I am Destin, this week, this video is sponsored by tacos. 347 00:12:17,607 --> 00:12:20,193 I hope you enjoy that too, have a good one, bye. 348 00:12:20,193 --> 00:12:21,633 - [Destin] What are you doing? 349 00:12:21,633 --> 00:12:22,636 - Making tacos. 350 00:12:22,636 --> 00:12:24,274 - Making tacos. 351 00:12:24,274 --> 00:12:25,878 This episode of Smarter Every Day, 352 00:12:25,878 --> 00:12:26,859 is sponsored by Hello Fresh. 353 00:12:26,859 --> 00:12:28,344 Which is a meal kit delivery service, 354 00:12:28,344 --> 00:12:29,605 which we use at the Sandlin house, 355 00:12:29,605 --> 00:12:32,858 to cook meals and eat around the table as a family. 356 00:12:32,858 --> 00:12:34,443 They send food to your house, 357 00:12:34,443 --> 00:12:37,932 and you can just cook per the recipe, which is enclosed. 358 00:12:37,932 --> 00:12:40,277 They have premeasured ingredients, it's a great thing. 359 00:12:40,277 --> 00:12:41,273 The reason we like it, 360 00:12:41,273 --> 00:12:42,721 is because it makes everything simple, 361 00:12:42,721 --> 00:12:44,869 and how we do life, in the evenings. 362 00:12:44,869 --> 00:12:46,997 And it let's us eat yummy food. 363 00:12:46,997 --> 00:12:48,299 - [Destin] How do you know when they're done? 364 00:12:48,299 --> 00:12:49,756 - Timer. 365 00:12:49,756 --> 00:12:52,492 (laughs) 366 00:12:52,492 --> 00:12:54,993 - So if you want to try this, I highly recommend it. 367 00:12:54,993 --> 00:12:56,048 We love it. 368 00:12:56,048 --> 00:12:58,456 You get really good food, and your kids learn how to cook. 369 00:12:58,456 --> 00:13:00,958 You can do this by going to Hellofresh.com, 370 00:13:00,958 --> 00:13:04,081 and use the promo code, smarter80. 371 00:13:04,081 --> 00:13:05,980 For the New Year they have a special where you can get, 372 00:13:05,980 --> 00:13:07,750 eight free meals basically, 373 00:13:07,750 --> 00:13:09,933 80 dollars off your first month of Hello Fresh. 374 00:13:09,933 --> 00:13:12,262 Do that by going to HelloFresh.com, 375 00:13:12,262 --> 00:13:14,077 use the promo code smarter80. 376 00:13:14,077 --> 00:13:15,718 Come look at these tacos. 377 00:13:15,718 --> 00:13:16,711 - [Destin] So am I at a taco truck? 378 00:13:16,711 --> 00:13:17,544 - [Boy] Yep. 379 00:13:17,544 --> 00:13:18,377 - [Destin] Nice. 380 00:13:18,377 --> 00:13:19,481 Thanks for making me tacos. 381 00:13:19,481 --> 00:13:20,376 - You're welcome. 382 00:13:20,376 --> 00:13:22,345 - [Destin] Would you rather have tacos or a haircut? 383 00:13:22,345 --> 00:13:23,257 - Tacos. 384 00:13:23,257 --> 00:13:24,790 (laughs) 385 00:13:24,790 --> 00:13:25,859 - [Destin] Will you get a haircut anyway? 386 00:13:25,859 --> 00:13:26,692 - Yeah. 387 00:13:26,692 --> 00:13:27,525 - [Destin] Okay. 388 00:13:27,525 --> 00:13:28,963 So it works out to about 6.99 a serving, 389 00:13:28,963 --> 00:13:29,914 which is a really good deal. 390 00:13:29,914 --> 00:13:32,381 If you want 80 bucks off your first month of Hello Fresh, 391 00:13:32,381 --> 00:13:36,909 go to HelloFresh.com and use the promo code smarter80, 392 00:13:36,909 --> 00:13:38,698 and get 80 bucks off, it's good stuff. 393 00:13:38,698 --> 00:13:39,531 Bye. 394 00:13:39,531 --> 00:13:40,702 If you're mom doesn't love laminar flow, 395 00:13:40,702 --> 00:13:41,748 your mom is wrong. 396 00:13:41,748 --> 00:13:43,339 (laughs) 397 00:13:43,339 --> 00:13:46,735 There's only one thing left to do, the taste test. 398 00:13:46,735 --> 00:13:49,088 (laughs) 399 00:13:49,088 --> 00:13:51,569 That was laminar flow. 400 00:13:51,569 --> 00:13:54,152 Let's taste turbulent flow now. 401 00:13:56,595 --> 00:13:57,618 Yeah laminar flow is better. 402 00:13:57,618 --> 00:13:59,701 (laughs) 27802