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So, there's actually another way to graph it where we can directly graph the dissociation energy or the bond strengths.
其实,还有另外一种画这个曲线的方式,可以直接画出离解能的大小,或者键的强度。
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so I, you know, I enjoy that sort of intense effort, the sort of adrenaline that goes with the crunch
我就喜欢那种高强度的努力,那种肾上腺素增长的感觉。
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Why? Bundle of properties: mechanical strength, chemical inertness, ease of fabrication: that's not a unique solution.
为什么,属性的总和:,机械强度,化学惰性,易于制造,那不是独特的解决方法。
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So, one simple way to code intensity is the number of neurons firing; the more neurons the more intense.
影响反应强度的一个简单因素,就是产生神经冲动的神经元数量,神经元越多,反应强度越大
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More importantly, they can affect blood pressure as well, the strength of your heartbeat and the pressure that your heart generates.
尤为重要的是,这也会影响血压,心跳的强度,和心脏能够输出的压力
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And when we talk about intensity in terms of units, we usually talk about watts, so if you change your lightbulb, usually you see the intensity in terms of watts.
当我们讨论强度的单位时,我们经常用瓦特,所以如果你更换灯泡,你通常会看到,以瓦特为单位的强度值。
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For Bentham, all that matters, you'll remember, are the intensity and the duration of a pleasure or pain.
对边沁来说,要记住,真正重要的,是快乐或痛苦的强度和持续时间。
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A volume which is an intensive volume.
一个强度量一个强度体积。
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Well, we have a particular recipe for instrumental timbre or instrumental color and it's the intensity of the overtones with -- or partials-- within each particular instrument that creates that.
我们乐器的音质,或者说音色,也有独有的配方,那就是每种乐器营造的,分音,或泛音的强度
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I think it's the imminence of their fallen-ness that lends this image its incredibly powerful emotional intensity and also, I think, its beauty.
这是它们即将堕落的迫切性,使这幅图像有了无穷的情感强度,和无边的美感。
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And so we might need to work out various, more complicated, formulas here, where we multiply the pain times its duration and take into account its intensity, get the sheer quantity of pain that way.
我们需要编制出各种,更复杂的公式,以便增加痛苦的倍数,延续时间,还要考虑痛苦的强度,获得痛苦的纯量。
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and also they do a lot of interpretation courses where you can learn like really intense, high intense.
还有好多口译课,非常激烈,强度很大。
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And what has happened is they're using this bodily cue of their heartbeat to infer that that's who they find more attractive.
事实上,他们在用自己身体的信号,心跳的强度来确定谁更有魅力。
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Since that time, PES we've been able to actually measure these bond strengths by PES, photoelectron spectroscopy.
自从那时,我们就能够用,测量键的强度,光电子能谱。
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Yeah, and if you could get to choose your own shock level, you could keep--then very, very few people go all the way.
如果可以自己选择电击强度,很少人会选择高强度的。
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Another way to increase intensity is the frequency of firing.
另一种会增加反应强度的因素,就是神经冲动产生的频率
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They play with these partials on each of these notes, but this is just one sound with all of these other things mixed in to the medley that produces the quality or timbre of a particular instrument.
它们改变音符中的分音的强度,不过这只是一个声音,要算上其它所有分音的集合,才能构成一个特定乐器的音色
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But in terms of SI units, which become much more useful if you're actually trying to use intensity in a problem and cancel out your units, we're just talking about joules per second is what intensity is.
但是用国际单位制,这个变得越来越有用了,如果你实际上在使用强度,来解决问题和约化单位,我们仅仅讨论每秒钟的焦耳,这就是强度。
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Again, in an electric field line splitting observed, the intensity of the line splitting varying with the intensity of the applied electric field.
结果也证明谱线在电场中也会分裂,而且其分裂程度,随电场强度变化而变化。
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They don't need that kind of mechanical strength.
就不需要那种机械强度的保护机制
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The second one is the frequency of firing in that something is more intense if it's "Bang, bang, bang, bang, bang, bang" then "Bang, bang, bang" and these are two ways through which neurons encode intensity.
第二个是产生神经冲动的频率,如果先是 "砰 砰 砰 砰 砰",然后变成,"砰,砰,砰",这是由于神经元反应强度更大了,这便是两种,会影响神经元反应强度的因素了
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So, what we would expect is that there is a relationship between intensity in kinetic energy because it was understood that however intense the light was, if you had a more intense light, it was a higher energy light beam.
光强和能量之间,应该有一定的关系,因为在我们的理解中,不管光强是多少,光的强度越大,光束能量越高。
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And, furthermore, that the intensity of the splitting was proportional to the intensity of the applied magnetic field.
并且谱线的分裂程度,和实验中所使用的磁场强度,是成比例的。
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Or if we look at how strong it is, it's actually stronger than a single bond, but weaker than a double bond.
或者如果我们看键的强度的话,它实际上比单键更强,而比双键更弱。
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So our last question we ask is what's the total number of photons emitted if we give this given intensity for 60 seconds?
最好的问题是如果我们,按照给定的强度照射60秒,那么总的光子数是多少?
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The next thing that they wanted to look at was the actual intensity of the light and see what the relationship of intensity to kinetic energy is.
下一而他们要研究的是光的强度,看一下光强和能量之间的,关系是怎样的,我们预期。
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If we know that this is it the dissociation energy for a hydrogen atom, we can also say the bond strength for hydrogen molecule 424 is 424.
如果我们知道了这是一个氢分子的离解能,那么我们也可以说氢分子的键的强度,就是。
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Intensity, if we increase the intensity, we're not increasing the energy in each photon, we're just increasing the number of photons that we're shooting out of our laser, whatever our light source is.
强度,如果我们增加强度,我们增加的不是,每个光子的能量,我们增加的仅仅是,从我们激光源射出的光子数,无论我们的光源是什么。
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So, what this lets us do now is directly compare, for example, the strength of a bond in terms of a hydrogen atom and hydrogen molecule, compared to any kind of molecule that we want to graph on top of it.
因此,这让我们现在可以做到直接进行比较,比如,将一个氢原子,和一个氢分子的键的强度,与任何其它类型的分子进行比较,我们只需要把它的曲线也画在这幅图上。
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So we see that we do not eject electrons in the case of the laser pointer, even if we have this intensity, it is still not related to the energy of an individual photon, so we won't see an effect.
所以我们看到我们用激光笔,还是没有逐出电子,即使我们有这样的强度,它仍然与一个单个的光子能量无关,所以我们不会看到光电效应。
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