有规律的重复活动如声波、光波、无线电波都有一个特定的频率,或者说是每秒的波动次数。
Regular repeating actions such as sound waves, light waves, or radio waves have a certain frequency, or number of waves per second.
在光学天文学中,在用望远镜观察恒星时,我们依靠的是可见光波。
In optical astronomy, using a telescope and observing the stars that way, we rely on visible light waves.
与可见光波不同的是,这些无线电波可以较容易地穿过太空中的各种气体和灰尘,穿过我们地球的大气层。
Unlike visible light waves, these radio waves can get through the various gases and dusts in space, and through our own earth's atmosphere comparatively easily.
除此以外,当可见光波从这些分子上反射出去时,它会向四面八方扩散。
And on top of that, when that visible radiation bounces off those molecules, it scatters in all directions.
无线电波广泛存在于自然界中,从声波、光波到空间中的宇宙射线。
Radio waves exist in nature, from sound and light to cosmic rays in space.
这种波形往往出现在自然界中,包括海浪、声波和光波。
This wave pattern occurs often in nature, including ocean waves, sound waves, and light waves.
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。
Just like we see destructive interference with water waves or with light waves, we can also see destructive interference with orbitals.
这些无线电系统之间就像光波与声波一样彼此区别,比如,人造卫星就无法追踪射频识别标签。
These radio systems are as different from each other as light is from sound, so satellites cannot track RFID tags, for instance.
光波和无线电波能被星际气体和尘埃吸收及散射。
Light and radio waves are absorbed and scattered by interstellar gas and dust.
为了使光波和梳齿尽可能的完美,特殊晶体和镜面等其它一些技术也得到了采用。
Special crystals, mirrors, and other techniques also are used to make the light waves and comb teeth as perfectly spaced as possible.
激光雷达使用光波。
时间和频率是逆相关的,即:时间单位越小(或光波振荡越快)频率数量越大。
Time and frequency are inversely related; that is, smaller units of time (or faster oscillations of light waves) result in larger frequency Numbers.
“亲关系”栏目则会提供散文光波来疗愈和学习亲密关系学的模式。
The Relationship Chapters section offers prose wave healing in the study of relationship lore patterning.
来自那个时期的可见光延展过广,以至于它的光波达到了毫米、次毫米级别。
Visible light from that time has now been so stretched out that its waves are in the millimeter/submillimeter range.
依赖光合作用的生物则利用可用光波来适应环境。
Any photosynthetic life would be adapted to take advantage of the available light waves.
我们有光波。
一个典型的光学望远镜或许有一个可以收集几百万倍光波的直径。
A typical optical telescope might have a diameter a few million times the wavelength of the light it is collecting.
这种光波可以穿透皮肤几厘米深。
This wavelength of light can penetrate several centimetres into the skin.
当时,人们认为,光波就像声波、海浪波或冲击波一样,它们的运行必须穿过介质。
At the time, people believed that light waves, just as sound waves, ocean waves or shock waves, had to travel through a medium.
这是一种电磁波(即与光波相同类型的波)。
This is a type of electromagnetic wave (ie, the same type of wave as a light wave).
透镜(包括我们眼睛中的水晶体)会对不同的光波产生不同程度的折射。
Lenses, including the lenses in our eyes, bend lights of different wavelengths by unequal amounts.
短波红外成像技术可以探测到可见光与热像仪波段之间人眼无法看到的反射光波长。
SWIR technology detects reflected light at wavelengths that the human eye cannot see, in wavelength bands between visible and thermal cameras.
并已制造了可在红外光和可见光波段工作的隐身器件。
Related cloaks have been made to work with infrared rays and visible light.
微细的玻璃纤维中传输的光波几乎可以承载所有的电话和数据流量。
Light flowing in thin threads of glass carries almost all of the telephony and data traffic.
在这次测试中,机载的计量器在激光波束离开飞机时捕捉到了它。
During that test, an onboard calorimeter captured the laser beam before it left the aircraft.
当光波进入普通材料时,如玻璃,这些材料改变了光波中的电磁场,使光波降低到某一新的速度。
When light waves enter normal materials such as glass, the material alters the electric and magnetic fields in the light, slowing the waves to a particular new speed.
通过在“薛定谔的猫”状态下传送光波包,他们做到了这一点。
They did it by teleporting the wave packets of light in a 'schrodinger's cat' state.
关键是发现蓝色光波的振荡频率远高于红色光波,黄色和绿色光波的振荡频率介于两者之间。
The essential point is that the blue waves oscillate much faster than the red waves, and the yellow and green waves are somewhere in between.
关键是发现蓝色光波的振荡频率远高于红色光波,黄色和绿色光波的振荡频率介于两者之间。
The essential point is that the blue waves oscillate much faster than the red waves, and the yellow and green waves are somewhere in between.
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