Controlling Turbulence and Evolution: How Engineers Overcome Uncertainty
Ғылым және технология
Two examples of how engineers solve problems before they have scientific certainty: How they control whether or not fluid flow is smooth or turbulent, and how they engineer useful enzymes.
Learn More: Companion Book
Explore the ideas in this video series further with its companion book: The Things We Make: The Unknown History of Invention from Cathedrals to Soda Cans (ISBN 978-1728215754)
www.amazon.com/Things-We-Make...
Other videos in this series
Episode 1: Building a Cathedral without Science or Mathematics: The Engineering Method Explained • Building a Cathedral w...
Episode 3: The Steam Turbine: The Surprising Relationship of Engineering & Science • The Steam Turbine: The...
Episode 4: The Microwave Oven Magnetron: What an Engineer Means by “Best” • The Microwave Oven Mag...
Video Summary
00:00 Titles
00:07 Laminar and Turbulent Flow
To illustrate how engineers work their way around uncertainty Bill introduces one of the most complex phenomena in nature yet one of utmost importance to engineers: the transition from laminar to turbulent flow. To illustrate these types of flow he examines the smoke rising from burning incense pointing out that the smoke near the incense flows smoothly (laminar flow) and further away becomes violently swirls (turbulent flow).
00:51 Engineering & Turbulence
He notes that to this day a fundamental understanding of when that transition from laminar to turbulent flow occurs puzzles scientists, yet, engineers must know when the transition occurs to control which type of flow occurs. Of prime importance is the smooth, laminar flow of air over an aircraft wing. Yet, without a fundamental scientific understanding of how to achieve that laminar flow we have flown across the Atlantic Ocean routinely since the first commercial passenger flights in 1939.
1:23 Reynolds’s Apparatus
Although twenty-first century science cannot fully understand turbulence, a nineteenth-century engineering professor, Osborne Reynolds, built an apparatus to find a formula used by engineers to predict the transition from laminar to turbulent flow. Reynolds learned that a) below a particular flow rate no turbulence occurs, b) that the transition occurs abruptly, and c) that there is an upper limit to the flow rate above which smooth flow cannot be sustained.
3:10 Reynolds’s Explanation
To understand this behavior Reynolds compared the flow of water to a military troop. He reasoned that the orderliness of marching troops depends on three characteristics: speed, the number of soldiers in the troop, and discipline. The speed of the troop corresponds to the flow rate of the fluid, and the size of the troop to the diameter of the pipe. And the “discipline” is something called viscosity. It’s the resistance to flow.
3:51 Viscosity: Water vs Honey
To understand viscosity, Bill compares the different rates of flow for water and honey: the water flows readily, while higher viscosity honey flows slowly.
4:04 Reynolds’s Number
Reynolds gathered three characteristic of fluid flow - the diameter of the pipe, the velocity of the fluid’s flow, and its viscosity - into a single relationship: The diameter times the velocity divided by the viscosity. He observed that when this combination of variables was less than about 2,100 the flow was laminar and above that value the flow could became turbulent.
5:16 Technological Importance of Flow
With this relationship engineers could know what to change to achieve laminar or turbulent flow. Bill mentions three designs where engineers want to control the type of flow: mixing pharmaceuticals, cooling steel, and directing the flow of air around a truck.
5:51 Science vs Engineering
Reynolds’s approach doesn’t describe turbulence at a molecular level, his description was phenomenological (that is, a description of what is observed). This difference underlines the striking difference between science and engineering: the scientific method strives to reveal truths about the universe, while the engineering method seeks solutions to real-world problems.
6:10 Scientific Breakthroughs Only Change Boundaries
We might think that today’s science would subsumes all of engineering. Yet scientific breakthroughs never remove the need for engineering: Humankind developed the engineering method to reach beyond codified scientific knowledge. Instead, the advance of science only pushes out the boundary between the certain and uncertain, and so resets the boundary where engineers work.
6:35 Directed Evolution
To illustrate that even today engineers step beyond scientific certainty, Bill tells the story of Nobel Laureate Frances Arnold’s evolution of enzymes that can be used under the harsh conditions of industrial use.
12:01 Next Video
Bill mentions that in the next video he will explore the relationship of engineering to science.
12:10 End Titles
Пікірлер: 537
(Crashes through door, stumbles into room). Did someone say LAMINAR FLOW?
@organicfarm5524
Жыл бұрын
😂 glad you heard and came
@donamills
Жыл бұрын
I was scrolling through the comments just to see if you were going to chime in. And here you are. 😁
@chicken_punk_pie
Жыл бұрын
Certified Destin moment
@oohhboy-funhouse
Жыл бұрын
OH YEAH! Got your smooth FLOW right here!
@KaleOrton
11 ай бұрын
Destin!
Ah. The David Attenborough of the engineering world. Could listen to you for hours. 😊
@engineerguyvideo
Жыл бұрын
That's quite the compliment ... and I hope I can work into my 90s!
@AlexTamayo.
Жыл бұрын
@@engineerguyvideo Bill, thank you so much for doing these videos. I've missed them dearly. I'm very much liking this series as I never thought of the engineering method, but what you're saying makes so much sense. Brilliant series. Once again, thank you!
@franklincerpico7702
Жыл бұрын
@@engineerguyvideo Bill you have a tone and cadence of voice that just keeps your attention.
@engineerguyvideo
Жыл бұрын
I was in public radio for this … did 200 pieces … in radio voice and words are all you have!
@wsams
Жыл бұрын
@@engineerguyvideo We are forever grateful for your contributions ❤
I've been studying engineering for 2 years now and at no point was this distinction between engineering and science made. Here I was, thinking of engineering as an application of the scientific method to real world problems. I am both frustrated with myself and amazed at how well these past two episodes have portrayed engineering in a new and much more interesting light.
@itheuserfirst3186
Жыл бұрын
Engineers tend to overvalue their knowledge and think they are scientists.
@serkles8597
Жыл бұрын
@@itheuserfirst3186 I think every profession has this to some degree. People in general like to hold themselves in high esteem, thats only occasionally a bad thing. An engineer can be a scientist and use the scientific method to find solutions to their problems. This and the earlier video have not so much altered my view of what an engineer does but rather expanded it.
@1boobtube
Жыл бұрын
@@itheuserfirst3186Scientists tend to get tomorrow to explain what an engineer had to do yesterday lol. Seriously though pure and applied both have value.
@billschlafly4107
Жыл бұрын
Science is the endeavor to understand reality using the scientific method. Engineering is the endeavor to apply that knowledge to improve life.
@xXTomokoKurokiXx
Жыл бұрын
@@billschlafly4107 Yeah, that's the whole thing with this series. Scientists research things, engineers apply knowledge. Both are valuable resources that improve our lives daily.
Even in situations where full scientific understanding _IS_ something we have, reality is messy. Just because you fully understand a process doesn't mean it's _easy_ to control it. The machinery to do the job perfectly may be far too expensive to construct, maintain, or train operators to use. So instead we engineer something that's _good enough,_ because it's cheaper than perfection, and we don't actually need perfection.
@engineerguyvideo
Жыл бұрын
Spot on
@riveradam
11 ай бұрын
This reminds me of "all models are wrong, but some are useful" (George Box).
@Rathmun
11 ай бұрын
@@riveradam Yep, even if you have all the data to generate a perfectly correct model of some situation, a slightly less correct model will probably calculate much faster. You don't need a weather model that predicts tomorrow perfectly, but takes a decade to run. By the time it delivers results you could just look at historical data.
@AverageAlien
11 ай бұрын
Chase perfection, achieve excellence
@Rathmun
11 ай бұрын
@@AverageAlien Just make sure you're not so busy chasing perfection that you don't notice you've achieved excellence.
Strikes me that a lot of what’s happening in the field of Machine Learning today is not science but engineering. As with the discovery of the formula for what makes turbulent flow, it might take decades more to understand the principles behind it.
@gregschultheis
Жыл бұрын
I was struck by that similarity as well. No need to discover every possibility, just keep expanding the ones that work best.
@SianaGearz
Жыл бұрын
Machine learning is a field of computer science. ... Which is a total misnomer. Since it's not about computers - those are the subject of computer engineers, who are electrical engineers. And it's also not a science, since it doesn't reveal fundamental truths of nature, it's a field of engineering. It's data processing engineering.
@EebstertheGreat
Жыл бұрын
Isn't this what "software engineering" is supposed to be about?
@SianaGearz
Жыл бұрын
@@EebstertheGreat Software engineering is about architectural decisions in software design. Computer science is about algorithmic decisions in software design. So we're in the domain of computer science rather than software engineering. Of course computer science is not a science but I've said that before.
@EebstertheGreat
Жыл бұрын
@@SianaGearz Computer science is a science sort of like statistics or economics is a science. It's largely formal and theoretical, but I don't think that disqualifies it from science status. I don't think fiddling with an AI is really computer science at all, though.
glad you found time to make more videos. each one of your episodes is a true joy to watch and learn from.
I've always shied away from using the terms "audio engineer" or "computer engineer" to describe the jobs I do, but that's come from a misunderstanding of what an engineer is or what makes an engineer. This new series helps me better understand that I have been using the engineering principal all along and don't need to be a lab-coat wearing scientist to be an engineer. Looks like I've got a new book to buy. Thanks, Bill, and welcome back!
@jgharston
7 ай бұрын
Do you remember a cartoon called Dexter's Lab? His catchphrase was "For Science!" I would shout back "no, what you're doing is *engineering*!" Such is the propagation of misunderstanding in our society.
I just took a class called “scientific computing”, which funnily enough focuses entirely on approximating solutions to real world problems. In the class we learned how to evaluate a bunch of equations like optimization problems (essentially solving for x when an equation is traditionally impossible), and things like approximating the solution to second and n-order systems of differential equations which model different real-life systems. Although the pure math hasn’t quite gotten where it’d need to be in order to do these things, we can approximate a solution to them with nearly perfect accuracy using computing techniques developed long before computers ever were, by mathematicians like Euler and Newton. Thanks for coming back Bill!
Thank you for this. I work in an engineering department where our needs are outpacing our certainty. I have felt guilty pushing for us to catalog our rules of thumb instead of waiting for guidance or more data. I feel much better about it now.
So glad you're back. I got your book on the R101 (both audio and paper) had have referred to it often as an example of using completely non-intuitive solutions for problems (like the use of bovine intestinal tissue to make hydrogen gas bags). Another use of Reynolds number, is that it makes wind tunnel testing of scale models possible. The air flowing over a small model will act quite a bit differently than on a full size aircraft at the same speed, so aero-engineers make sure to test at the same Reynolds number (Rn) to take into account the differences in size, which usually means running the air past at higher speeds. This only works up until the transonic region, though (Rn is different at supersonic speeds), so NASA devised a clever way of increasing Rn other than the speed of the airstream. At their Ames Research Center, they build a pressurized wind tunnel where the whole thing is pumped up to two atmospheres. To have access to the test subjects without venting the whole tunnel (which takes several days to pressurize), they built the world's largest ball valve with the test section being the hole in the center. When they want to access the test subject, they rotate the ball 90° so that the center faces outwards and the rest of the tunnel stays sealed.
I'm so happy that you're back making videos again. Excited to watch more!
Engineering is just brute forcing nature to my will regardless of how the science works. I'd never thought of the relationship between those two methods like that... Mind blown, thx Bill.
I love this video. I would like to add that enzymes, which are proteins that are biologically engineered catalysts, are not only sensitive to temperature, but also so many other factors implied by Frances Arnold's brilliant yet simple experiments...acidity, salinity, and probably more things but it's been a while since my biochemistry classes. (Entropy?) I would also like to add that First Principles is a constantly evolving/expanding foundation, so eventually our First Principles of solvent and biological solute will one day be able to explain interaction amongst players. But Engineers will have moved far beyond the need for this by then :)
I'm an immortal highlander who has been studying liquid flows since 530BC (Heraclitus stole the whole river thing from me) & doing flow rate calculus for about 250 years, and I learned more from this video than during my entire cursed existence.
Hi Bill, Glad you're back here, here ! Just a quick side note: 4 min 50 to 5 min 20 is correct, but very confusing, because we normally work with a fixed flow rate (m³/s) and not a fixed velocity (m/s). This means that normally, one increases the diameters to get back in laminar flow, because the increased diameter drops the velocity squared. Doubling the diameter, means dividing the velocity by 4, effectively halving the Reynolds number with a fixed flow rate.
@hilo90mhz
11 ай бұрын
Thanks for analyzing that and noticing the fixed velocity! I was super confused until I saw this comment as I hadn't noticed the fixed velocity instead of the flow rate and like you said was saying in my head doesn't increase in diameter lower the velocity and hence turbulence..
@irgendwieanders2121
10 ай бұрын
Thank you, that was what was bordering me, did not think of a fixed v... (Does nobody think of the poor pump?!)
What a treat to have not just one, but 3 new Engineerguy videos to enjoy! Thanks for posting these Bill, it's always a treat when a new one comes out :)
THANK YOU FOR YOUR RETURN! I wish I could convey properly in a such a comment my gratitude for the work you do here.
Thanks for making subtitles!
Well glad you are back and giving some real purpose to KZread. Thanks Bill!!
I'm so happy you're back!!
Holy cow! It's good to see you're uploading again! I'm an Engineer now! Thank you, I used to watch your videos when I was working retail and they gave me hope.
Bill, you're by far my favorite educational channel on youtube. Happy to have you back. Cheers!
Beautiful piece!! Best of the bests. Thank you, Professor Hammack!! I learned something today.
so glad you are posting more videos. your way of teaching makes learning such a treat!
Absolutely lovely as always, Bill! Fascinating perspective
I ❤ your channel and presenting style! I noticed the slower pace here too, an improvement for me - easier to digest. Thank you sir.
So glad to see you back on KZread!!! Smiles all around!
Great series so far - fascinating to see the engineering method conceived as being so independent from the scientific method - quite convincing
Holy moly! So glad you are back!!!
I have missed this channel so much. Glad to see more content from you, Bill!
Fantastic series! Thank you for this!!
Excited to see new videos on the channel. These videos embody in educational content a crowning feature of quality engineering: impeccable simplicity.
I saw your aluminum can video so so many years ago. It's good to see your videos again, you make it really simple for any of us to understand. Thank you engineering guy.
Thanks dad, so great to see you back on the platform, creating content
This video is excellent! A 12 minute masterclass!!! Thanks, Professor!
It's great that you are making videos again! Great video!
So glad to have you back❤️
SO GLAD this channel is back!
It’s about time you posted again! I have been waiting for years! Your videos are some of the best!
yay! you're back. Very excited!!!
Glad you're back Bill.
The GOAT is back! Gonna have to come check this out after I get off of work.
Awesome video, I was excited to find a video for the second day in a row - looking forward to the next ones too!
Thanks Bill! Another excellent video.
Welcome back! You have been missed! I hope all is well with you and yours.
Wonderfull to see you again here on yt!
I missed these videos. Welcome back!
I love this channel so much. Great to see these recent videos Bill. Thank you for excellent content.
Very clear speaker! Very talented, and thank you for the post/content.
Great to see you back on youtube, Bill. Love your videos.
Wait. This is daily series!?!? Feels like Christmast!
Thank you for making more content! You're awesome!
Fascinating! Clear description of the difference between engineering and scientific endeavour, plus great delivery
Other video?! SO SOON!!?! This is a real treat!
The world missed you! Thx for every video.
I have been watching your videos since the first semester of college and on the 20th of this month I will be a chemical engineer like you sir! Thanks for sharing your knowledge.
It's awesome that you're making videos again!
A great video,thanks for sharing your knowledge.
Thanks for another great video, You and Tim Hunkin are my favorite youtube 'engineers.'
Dude, I've been a fan ever since you stepped into the limelight with a a shiny aluminum can. I'm bummed whenever you don't post for a few years, and I'm happy to see you back. I sure wish you'd just become a full time KZreadr.
@engineerguyvideo
Жыл бұрын
I will always be slow but I’d like to be continuous!
i love the parallels you could easily draw between the second half of this video and the current stage in machine learning evolution.
I wish you were my teacher at school! You are so easy to follow and understand. Thanks for the amazing content.
That was quick. 2 videos back to back! Awesome. Happy me now
These feel like coming back home. Reading the book now and loving it!
Wonderful stuff! Welcome back to youtube.
New to this channel. Loving the content covered and perhaps even more the 'fireside' style in which it's presented
It is a pleasure listening to your clear writing and presentation! Laminar flow! Thank you.
Thank you for this.
love how ur recent videos have focused on the science vs engineering misconception of being the same.
Glad to see you back Bill, congratulations for another great video!
@engineerguyvideo
Жыл бұрын
Thank you
Thank you very much, this was very clear. Great writing too! Great show!
Absolutely fascinating, especially the 'engineering' section. Very insightful. Thank you.
So glad to see there is an audiobook, can't wait to listen on a long drive
@engineerguyvideo
Жыл бұрын
It’s not read by me …
Fascinating! I remember some waterconduits in Peru, small, 5 inches broad canals dab into stone, slanted and many feet long. The water flowed smoothly and fast. The simple act of passing a finger through the width of the canal caused the water to flow slow and sticking to one side of the canal. It was in some sort of video or documentary.
Spread out those videos! Haven't even had time to watch the one from yesterday!
Bought your book, thank you for these wonderful insights!
So glad you are back :)
welcome back, my dude!!
Fascinating! Thank you!
I'm so happy to see you back, hope you are doing well.
My mind is blown. Should be shown to intelligent design espousers who doubt the efficacy of evolution. Looking forward to watching all of engineerguy's fantastic videos.
There's simply not a better way to fall asleep than to listen to your podcasts in the bed, accompanied of some low-warm light, your mesmerizing voice and the beautiful thoughts about engineering and some on mind developing of the next little engineering challenge...
Fascinating as always. People like Frances Arnold should be household names by now, and our kids should grow up hearing their stories. And once again, thank you very very much for explaining these concepts.
Salute to this guy.... TheEngineerGuy
Another great video. Thanks!
Wait what? another one, what a treat!
WOOHOO! You're back!
This is so subtle and new, awesome.
In the early 90s when I was still a child, hearing about enzymes in laundry detergents being the hot new thing. Even as a child I found the idea amazing, how enzymes were integrated in order to "digest" stains, so to speak. That's how I imagined it. It's great to hear the context around this, and learn about Frances Arnold and her excellent method.
This example of enzymes reminds me of Gregory Mendel and how people in early eras somewhat understood inhereted traits without knowing about genes just by planting and raising animals.
I had learned about Reynolds formula in fluid mechanics chapter, but was not knowing about how intelligently he formulated it through this experiment. Thank you Bill Sir.😊
I am in the mentoring phase to other engineers where I work.. I keep your clear, direct and professional presentation methods in mind whenever we talk. Thank you for sharing!
@engineerguyvideo
11 ай бұрын
Thank you for your kind words
I never gave up on you! Thank you for never giving up on me!
omg, you're alive! This is awesome
Excellent, thank you.
He is BACK!
This video single handility reignited my passion for engineering. Thank you.
love this series!
Thank you Bill Hammack!
Thank you. Please do future videos