Placeholder Image

字幕列表 影片播放

  • way set up in the lab.

  • A bowl full of glass beads, tiny glass beads that represents sand set up her on.

  • Operators hold a steel ball bearing at a height of a meter above the surface.

  • You flicked a switch.

  • The ball drop down, went into the sand and made a crater the advantage of using glasses that it's more nearly spherical around so it doesn't have any sharp, jagged edges.

  • We have two bags of these downstairs.

  • One is the diameter of a typical bead is about 1/10 of a millimeter.

  • The other one is 10.64 millimeters, which you can imagine because you see it on a ruler.

  • So that's actually quite a course screen, so there's a substantial difference between these two.

  • This is the find powder, the 20.1 millimeter beads.

  • You could see it falling down as if it were water fall into the tiny bowl on.

  • We do this slowly so that the bowl underneath gets ah, uh, layer, which is a CZ gently created as possible.

  • It turns out that air has a big effect.

  • We want to trap the air as much as possible.

  • If you don't do it this way.

  • If you stamp it down, the whole effect disappears, Right?

  • This is the bed of the And here comes the little ball bashing into it and you get a lice crown appearing as you might expect.

  • And then after this crown dies away, a plume appears in the center of the screen, rising up fire and higher and higher.

  • And then that plume seems to break into little bits and fall down.

  • So you get a secondary effect of a jet, a plume coming out of this cloud, which appears as you look in sideways.

  • Now we repeat the experiment, using the bigger beads 0.6, the millimeters and the stoop ball comes in.

  • You get a Corona coming out, but wait for it.

  • There is no plume.

  • Nothing rises up from the center.

  • You just get a normal crater appearing in the glass beads.

  • Now we're using the final grain particles on the sphere comes down on bashes in, and you can see it more or less from a top view.

  • It digs a hole, blows arctic ring shaped thing on the plume rises from the center, goes up, goes up, goes up.

  • So you've got a crater circular crater formed, And now, as the plume falls down, you get a little dimple or pimple or whatever you would like to call it.

  • Now we're looking at the same experiment for the larger glass spheres.

  • Down comes a sphere creates a crater, a hole in the middle, and now you can see that there is a slight dimple pimple in in the middle.

  • But nothing came up a za plume, so it's almost the same, creating a very nice crater.

  • But the plume has almost disappeared.

  • The bed of sand is full of air.

  • As the sea comes down, it compresses the bed of sand.

  • When it hits, hits, it pushes down, creates a hole at all.

  • The air in the region that it's just compressed wants to get out.

  • So the further down this, this fear goes, you've got a little tube coming up on that.

  • The air, trying to escape wants to go out about tube so you get after a little while a blast of air coming up through this tube sad can fall into this tube from the sides on.

  • It gets carried away with the wind that's blowing upwards.

  • So if these particles are tiny.

  • They get swept up by this gust of wind.

  • If the particles of heavy they don't get swept along so easily, and that's the reason why they don't really blow up.

  • You can see a little bit because they might have been blown up tiny amount, but they don't go way up into the air.

  • So the fine of the particles are, the more they get carried up by this blast of air.

  • Where did that come from?

  • Was that the air that was between the part, like under the ball?

  • Now?

  • Yes, directly under the ball.

  • Because it comes down, it pushes and pushes these particles together and compresses them on that air.

  • Wants to escape somehow.

  • The only place you can go is up and go sideways, but you do get this jet.

  • What's causing this is the air.

  • On the proof of that is the experiment was set up by a group led by Jaeger in Chicago, a rip, very respected group, and they decide to do it in a completely sealed container so the bowl is in the container.

  • The ball is in the container and is cut off from the rest of the world and they could pump out the air.

  • When the air is there, the effect is present.

  • By reducing the pressure of the air sufficiently, they could make the effect go away.

  • If you'd like to see more on this subject, including Worthington jets when objects hit a water surface, I'd really recommend Destin's video over.

  • It's smarter every day.

  • Be warned.

  • There's a little bit of toilet humor, but he's from Alabama.

  • Also.

  • I recently made a video about what I think when people write first in the comments section on YouTube.

  • You can have a look at that if you like.

  • And if you just want more slow motion, where we're doing a lot of periodic videos with chemistry videos at the moment, I'll also include a link to that on the screen, I imagine I don't know yet, but I imagine it'll be below me and to the side in a box down there.

  • I don't know.

  • I sort of do this afterwards, but you get the idea.

  • And of course, all these links will also obey in the description.

way set up in the lab.

字幕與單字

單字即點即查 點擊單字可以查詢單字解釋

B1 中級

顆粒噴射(慢動作) - 60個符號 (Granular Jets (slow motion) - Sixty Symbols)

  • 6 0
    林宜悉 發佈於 2021 年 01 月 14 日
影片單字