在入海口,我们看到了曙光。
In thy light shall we see light.
在你的照耀下,我们必见光明。
Only in his light do we see light.
惟有在祂的光中,我们才得见光。
For with Thee is the fountain of life; in Thy light shall we see light.
因为在你有生命之泉﹔在你的光中我们必见光。
For with you is the fountain of life; in your light we see light. (Psalm36:9).
因为生命的泉源在你那里;在你的光中,我们才能看见光。(诗篇36:9)。
We could see a glimmer of light on the far shore.
我们可以看到对岸微微闪烁的灯光。
We have to cancel all other light sources to see this very, very dim light from the atoms.
我们不得不遮蔽所有其他的光源,才能看到这个原子非常暗淡的光线。
I am sure you all know from physics class about how light moves in microscopic ways and that we can only see light when the wavelength of that light is in a specific range.
我相信,你们在物理课上都学过光是如何以微观的方式运动的,以及只有在光的波长在特定的范围内时我们才能看到光这一事实。
When we consider the nightly lifestyle of these bats, we will see they have to be sensitive to the changing light levels because this is how they sense when to start hunting.
当我们考虑这些蝙蝠的夜间生活方式时,我们会发现,它们必须对不断变化的光线水平保持敏感,因为这是它们感知何时开始狩猎的方式。
The light that we see with our human eyes as a band of rainbow color falls in the range of what's called visible light.
我们用肉眼看到的彩虹色的光属于可见光。
Using ultraviolet light, we can see the spectral signature of each component part of the pigment.
通过利用紫外光,我们可以看到颜料各个组成部分的光谱特征。
So we have to cancel all other light sources to see this very, very dim light from the atoms.
因此,我们不得不遮蔽所有其他的光源,才能看到这个原子的非常,非常暗淡的光线。
However, we can use relativity as a model to see what happens at speeds close to that of light.
不过,我们可以用相对论这个模型来看看接近光速的情况下会发生什么。
The light creates the aurora that we see.
这些光亮造就了我们所看到的极光。
Once we detected a planet, we would have to find a way of blotting out the light from its star, so that we would be able to 'see' the planet properly and analyze its atmosphere.
一旦我们找到这样一颗行星,我们就要想办法将它的恒星射过来的光线遮暗,这样我们就能彻底“看见”这颗行星,并分析它的大气层。
Therefore, the light we see coming from the sun was actually generated millions of years ago.
因此我们看到的从太阳来的光其实是几百万年前产生的。
And so as we move out, we see continuously from our planet all the way out into the real of galaxies as we see here, light travel time, giving you a sense of how far away we are.
接下来让我们向外太空移动,我们看到,持续不断的从我们星球的各个角度进入到真实的银河系,就像我们在这里看到的一样,让旅行的时间发光,给你一种我们的存在是如此深远的感觉。
The photosphere is the lowest layer of the sun's atmosphere, and emits the light we see.
光球是太阳大气的最底层,我们看到的光线就是从它发出的。
"Our world is dull by comparison - we humans see within a limited range of light wavelengths, and hear just a bit of sound," he says.
“相比之下,我们的世界时枯燥的——我们人类只能看到有限波长的光,有限频率的声音。”他说。
We can see the light at the end of the tunnel, and we're pretty sure it's a train about to run us over.
我们能够看到隧道尽头的光,并且相当肯定那里会有一趟列车要载我们脱离困境。
Just like we see destructive interference with water waves or with light waves, we can also see destructive interference with orbitals.
就像我们看到水波,和光波的相消干涉,我们也可以看到轨道的相消干涉。
The light we emit is about 1000 times lower than the naked eye can see.
我们身体所发的光比肉眼能见的低1000倍。
The light travels through these slits and then at the far end here we have a screen on which we see where the light has fallen and in what intensity.
光线穿过这些缝,然后在那边我们看到,光在屏幕上的落点及其亮度。
I want to say in particular that we can see the light of Asia's rise on the horizon. A dream long kept alive by the Asians is coming true.
我尤其要说的是,亚洲崛起的曙光已经照耀在东方的地平线上,这是亚洲人多少年来梦寐以求的时刻。
Planck detects light that we can't see with our eyes — light with low frequencies ranging from 30 to 857 gigahertz.
普朗克探测到的光波-低频范围从30 - 857千赫-是我们肉眼无法观察到的。
We see everything from paved and unpaved roads, light pollution, railways, electricity transmission lines.
我们可以从铺好的柏油路、或是未铺好的道路、光污染、铁路、输电线路看出所有的事情。
We can now see the light of dawn on the horizon.
人们看到了曙光。
Now, over the past few years, some of us had begun to believe that we could see a bright light forming at the end of that confused and heterogeneous tunnel.
过去那混乱的几年之后,现在我们中的有些人已经开始相信,在经历了那么长时间混乱而无序的隧道之后终于看到曙光了。
Now, over the past few years, some of us had begun to believe that we could see a bright light forming at the end of that confused and heterogeneous tunnel.
过去那混乱的几年之后,现在我们中的有些人已经开始相信,在经历了那么长时间混乱而无序的隧道之后终于看到曙光了。
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