pressurize
US /ˈprɛʃəˌraɪz/
・UK /'preʃəraɪz/
A2 初級
v.t.他動詞加圧する
We pressurize the space suit before we go into space
動画字幕
運動が長寿にもたらすメリット (The benefits of exercise for longevity)
- so you have to you have to have every aspect of the motor control Coordination ability to dissipate force ability to receive force Ability to balance motor, you know There's so much that goes in disability that it I think got a full half chapter in the book And it's far and away the most complicated to explain, but it's really obvious to see it when it's not there So, you know, this is every one of us is lacking in stability and it was the biggest Re-education for me as I pivoted to this way of training so it's it's everything from learning how to appropriately pressurize your intra-abdominal space to how to Unlock your ribs maintain an appropriate center of gravity how to be able to Isometrically contract muscles as necessary how to be able to do it under control how to have good foot mechanics, right?
だから、運動制御のあらゆる側面が必要なんだ。コーディネーション能力、力を分散させる能力、力を受け止める能力、運動バランスをとる能力......障害に関わることはたくさんあって、本には半分の章があるくらいだ、腹腔内を適切に加圧する方法から、肋骨のロックを解除して適切な重心を維持する方法、必要に応じて筋肉を等尺性収縮させる方法、それをコントロールしながら行う方法、足のメカニクスの良し悪しまで、すべてを学ぶことができるんだ。
- Um, so it's, it's everything from learning how to appropriately pressurize your intra-abdominal space to how to, um, unlock your ribs, maintain an appropriate center of gravity, how to be able to isometrically contract muscles as necessary, how to be able to do it under control, how to have good foot mechanics, right?
ビル・ゲイツ、エネルギーについて語る:ゼロへの革新! (中英字幕) (Bill Gates 比爾蓋茲談能源:至零方休的革新! (中英雙字幕))
- And that's to take all the CO2 after you've burned it, going out the flu, pressurize it, create a liquid, put it somewhere,
これは、エネルギー単位あたりに排出されるCO2の量です。
- And that's to take all the CO2 after you've burned it, going out the flu, pressurize it, create a liquid, put it somewhere,
これは、エネルギー単位あたりに排出されるCO2の量です。
凍結を防ぐ方法 (How to STOP Water From Freezing)
- I made a previous video about how, since water expands when it freezes, if you try to freeze water inside a rigid container, any of it that becomes ice will expand and pressurize the container, eventually stopping the rest of the water from freezing. So if you have supercooled water inside a rigid container, there aren't just the two competing factions of interior wanting to freeze and surface wanting to melt – there's a third player, pressure. Pressure makes it harder for ice crystals to grow, so pressure, like the surface, wants ice crystals to melt. Obviously, if you have a large amount of water, a tiny amount of it freezing into ice and expanding doesn't pressurize the remaining liquid very much, so a lot of ice can form before there's enough pressure to matter. Pressure simply doesn't come into the picture until way beyond the tipping point size for runaway ice crystal formation. But if you have a tiny amount of water, the pressure can be substantially affected by the formation of even a single tiny ice crystal. For containers that are smaller than a few tenths of a micrometer in size, instead of a tipping point where once an ice crystal gets big enough it keeps growing and growing, in this case the pressure's desire to melt overwhelms the interior's desire to freeze for all crystal sizes, and all ice crystals want to melt regardless of their size. So supercooled water in a tiny, rigid bottle won't freeze no matter how hard you smack it, as long as the bottle is tiny enough. For water 1°C below zero, the bottle needs to be less than 200 nm long.
水は凍ると膨張するため、硬い容器の中で水を凍らせようとすると、氷になった水は膨張して容器を圧迫し、最終的に残りの水の凍結を止めてしまうという話を以前ビデオで紹介した。つまり、硬い容器の中に過冷却水がある場合、内部は凍りたい、表面は溶けたいという2つの派閥が競合するだけでなく、圧力という第3のプレーヤーが存在する。圧力は氷の結晶を成長させにくくするので、圧力は表面と同様に氷の結晶を溶かそうとする。明らかに、大量の水がある場合、氷に凍って膨張するわずかな水の量では、残りの液体にあまり圧力がかからないので、十分
- I made a previous video about how, since water expands when it freezes, if you try to freeze water inside a rigid container, any of it that becomes ice will expand and pressurize the container, eventually stopping the rest of the water from freezing.
25,000ドル払ってこのリークを見つけた (I Paid $25,000 to Find This Leak)
- All we need to do is pressurize our loop.
マイクは2キロヘルツから100キロヘルツの間の音を拾いますが、これは人間の聴覚の範囲をはるかに超えています。
- All we need to do is pressurize our loop.
必要なのは、ループを加圧することだけです。
