| 0:00:14 | well i come to the max planck institute for dynamics and self-organization you got again |
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| 0:00:19 | if you see behind me is pretty much going into details the experimental whole and |
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| 0:00:23 | experimental hold we have the coding in turbulence facility |
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| 0:00:26 | the trick of that facility is to use compress topics of the right at high |
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| 0:00:30 | pressures |
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| 0:00:32 | to get high really and right now it's number |
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| 0:00:36 | so these are the storage tanks |
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| 0:00:39 | over here we have a five of them and these storage things currently we have |
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| 0:00:43 | the twelve terms of lexical right |
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| 0:00:45 | if you was inside we don't have any gas right now use |
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| 0:00:49 | it's the experiment as a part |
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| 0:00:51 | and then over here we have to look at firewood so this is the league |
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| 0:00:54 | education units in that unit we can pump the s at six out of the |
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| 0:00:58 | tunnel on the other side we have the big with all and also the you |
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| 0:01:01 | about |
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| 0:01:02 | and the both of them we can decrease the pressure the one really bar and |
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| 0:01:05 | therefore we have very little gas left when we are done with the experiment we |
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| 0:01:09 | are now inside the experimental whole over here we see the about the plume pressure |
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| 0:01:13 | vessel over here |
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| 0:01:15 | it's a two point five meters in diameter it's five meters long |
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| 0:01:19 | and it is for me to turn it |
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| 0:01:21 | which you will see in the moment in here we house the connection experiment and |
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| 0:01:25 | of course when the words closed |
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| 0:01:27 | then we can pretty rice this vessel up to very high pressures |
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| 0:01:31 | and all the details and that'll be described to you by josh okay who's the |
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| 0:01:35 | first author of our paper can he without value that details of the experiment |
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| 0:01:40 | so this is a dorm of the world we use our grant you put this |
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| 0:01:43 | out in and after that we still that on with lexical |
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| 0:01:48 | no you |
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| 0:01:50 | one |
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| 0:01:55 | o |
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| 0:01:58 | and german |
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| 0:02:00 | now and i shall we used to come function sales in the experiment they have |
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| 0:02:09 | expect we shall we could do one and the one of the metal plate as |
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| 0:02:12 | a mirror finish a backside of the bottom plate with glue heaters people why uniform |
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| 0:02:17 | heat flux |
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| 0:02:18 | for the top plate there is a cool in what the channels on the backside |
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| 0:02:21 | we used a circle at what a to maintain the constant temperature |
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| 0:02:26 | close to the top and bottom place we installed several fillmore shields wisconsin temperature we |
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| 0:02:32 | also use a large optimal shield to cover the side wall |
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| 0:02:35 | temperature each of them was regulated individually and the resolution is ten billion health |
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| 0:02:40 | but this means the conversation flow inside of a cell is completely insulated from surrounding |
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| 0:02:46 | temperature fluctuations |
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| 0:02:48 | half the sampled we put the two complexion sales into the boat and the measured |
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| 0:02:52 | the normalized heat flux namely the natural number as a different weighting number and the |
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| 0:02:57 | same time |
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| 0:02:58 | the results for the expect racial one so i showing colour we can see it |
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| 0:03:02 | is a transition at the really number around two times ten to thirteen after this |
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| 0:03:07 | transition the natural number behaves similar to that was formally in the expect racial one |
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| 0:03:11 | half so the black samples |
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| 0:03:13 | we interpret this observation as the onset of the transition to the automation state of |
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| 0:03:19 | really been a complexion |
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| 0:03:20 | our results also suggest that ultimate state transition is universal and independent able to but |
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| 0:03:26 | racial |
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