Turbulence: One of the great unsolved mysteries of physics - Tomás Chor

1,370,556 views ・ 2019-04-15

TED-Ed


Please double-click on the English subtitles below to play the video.

Translator: Reviewer: Daban Q. Jaff
00:06
You’re on an airplane when you feel a sudden jolt.
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Outside your window nothing seems to be happening,
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yet the plane continues to rattle you and your fellow passengers
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as it passes through turbulent air in the atmosphere.
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Although it may not comfort you to hear it,
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this phenomenon is one of the prevailing mysteries of physics.
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After more than a century of studying turbulence,
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we’ve only come up with a few answers for how it works
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and affects the world around us.
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And yet, turbulence is ubiquitous,
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springing up in virtually any system that has moving fluids.
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That includes the airflow in your respiratory tract.
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The blood moving through your arteries.
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And the coffee in your cup, as you stir it.
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Clouds are governed by turbulence,
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as are waves crashing along the shore and the gusts of plasma in our sun.
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Understanding precisely how this phenomenon works
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would have a bearing on so many aspects of our lives.
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Here’s what we do know.
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Liquids and gases usually have two types of motion:
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a laminar flow, which is stable and smooth;
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and a turbulent flow, which is composed of seemingly unorganized swirls.
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Imagine an incense stick.
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The laminar flow of unruffled smoke at the base is steady and easy to predict.
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Closer to the top, however,
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the smoke accelerates, becomes unstable,
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and the pattern of movement changes to something chaotic.
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That’s turbulence in action,
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and turbulent flows have certain characteristics in common.
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Firstly, turbulence is always chaotic.
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That’s different from being random.
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Rather, this means that turbulence is very sensitive to disruptions.
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A little nudge one way or the other
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will eventually turn into completely different results.
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That makes it nearly impossible to predict what will happen,
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even with a lot of information about the current state of a system.
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Another important characteristic of turbulence
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is the different scales of motion that these flows display.
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Turbulent flows have many differently-sized whirls called eddies,
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which are like vortices of different sizes and shapes.
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All those differently-sized eddies interact with each other,
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breaking up to become smaller and smaller
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until all that movement is transformed into heat,
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in a process called the “energy cascade."
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So that’s how we recognize turbulence–
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but why does it happen?
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In every flowing liquid or gas there are two opposing forces:
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inertia and viscosity.
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Inertia is the tendency of fluids to keep moving,
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which causes instability.
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Viscosity works against disruption,
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making the flow laminar instead.
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In thick fluids such as honey,
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viscosity almost always wins.
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Less viscous substances like water or air are more prone to inertia,
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which creates instabilities that develop into turbulence.
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We measure where a flow falls on that spectrum
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with something called the Reynolds number,
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which is the ratio between a flow’s inertia and its viscosity.
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The higher the Reynolds number,
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the more likely it is that turbulence will occur.
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Honey being poured into a cup, for example,
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has a Reynolds number of about 1.
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The same set up with water has a Reynolds number that’s closer to 10,000.
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The Reynolds number is useful for understanding simple scenarios,
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but it’s ineffective in many situations.
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For example, the motion of the atmosphere is significantly influenced
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by factors including gravity and the earth’s rotation.
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Or take relatively simple things like the drag on buildings and cars.
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We can model those thanks to many experiments and empirical evidence.
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But physicists want to be able to predict them through physical laws and equations
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as well as we can model the orbits of planets or electromagnetic fields.
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Most scientists think that getting there will rely on statistics
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and increased computing power.
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Extremely high-speed computer simulations of turbulent flows
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could help us identify patterns that could lead to a theory
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that organizes and unifies predictions across different situations.
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Other scientists think that the phenomenon is so complex
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that such a full-fledged theory isn’t ever going to be possible.
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Hopefully we’ll reach a breakthrough,
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because a true understanding of turbulence could have huge positive impacts.
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That would include more efficient wind farms;
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the ability to better prepare for catastrophic weather events;
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or even the power to manipulate hurricanes away.
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And, of course, smoother rides for millions of airline passengers.
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