Wave particle duality had been applied to photons.
波粒二象性应用于光子上。
To site an example, the famous "wave particle duality", where an object is both a wave and a particle simultaneously.
类似的困难也存在与现代物理学中。举个例子,著名的“波粒二象性”,一个客体同时即是波又是粒子。
Using coordinate rotation based on P-wave particle vibration, aligning the source components at different depths have been achieved.
采用P波粒子振动的坐标旋转,可使不同深度的震源分量对齐。
Using a photon counting apparatus as a device to measure light intensity, wave particle dualism of light is demonstrated by measuring photon distribution of double slit diffraction.
用光子计数仪作光强检测装置,通过测量衍射后的光子计数的空间分布来演示光的波粒二象性。
This extension of the photoelectric effect, in which one photon knocks one electron off the edge of an atom, could make physicists reconsider when light is a wave and when it's a particle.
在这种光电效应的延伸中,一个光子从原子的边缘打出一个电子,这可能要使物理学家们重新考虑光在什么情况下是波,什么情况下是粒子。
Einstein solved the puzzle three years later by suggesting that light is both a wave and a particle at the same time.
三年后,爱因斯坦解决了这个难题:他建议认为光可以同时是波和粒子。
So you're basically having a wave equation for a particle, and for our purposes we're talking about a very particular particle. What we're interested in is the electron.
所以你们主要有,一个粒子的波动方程,我们的目的是考虑一个特殊的粒子,我们感兴趣的是电子。
If a proton which has no mass can behave as a particle does it follow that an electron which has mass can behave as a wave?
如果一个没质量的光子能像粒子一样,具有质量的电子能否,表现得像波一样吗?
An electron is a particle, but an electron's also a wave.
电子是粒子,但是电子也是波。
So, if instead you put your particle somewhere down here on the electric field, or on the wave, the electric field will now be in the other direction so your particle will be pushed the other way.
还有方向,所以如果,你把粒子放在这下面,电场的方向相反,粒子会朝另一个方向运动。
An ocean wave passing through deep water causes a particle on the surface to move in a roughly circular orbit, drawing the particle first towards the advancing wave.
穿过深水的海浪使水面上的一个微粒按照一种近乎圆形的轨道移动,先把微粒拉向前移动的海浪。
But before we get to that, in terms of thinking just think, OK, this is representing my particle, this is representing my electron that's what the wave function is.
但是在我们谈论那个部分之前,在理解方面,仅仅是理解,好的,它代表了粒子,它代表了电子,这就是波函数。
Rather than explaining away the wave-particle duality in favor of one or the other extreme, Bohr incorporated it into the very interpretation of quantum mechanics.
波尔没有在偏向一方或另一方的极端中阐述波粒二象性,而是把它融进了量子力学的专门诠释中。
The most famous duality in physics is the wave-particle duality. This one states that matter has both wave-like and particle-like properties.
在物理学上最著名的二元性例子就是波粒二象性,这表明物同时具有波和粒两种属性。
Bohr found that an electron has the qualities of both a particle and a wave, a concept known as wave-particle duality, which has become a cornerstone of quantum physics.
玻尔发现电子同时具有粒子和波的性质,这便是波粒二象性。波粒二象性构成了量子物理学的基石。
An ocean wave passing through deep water causes a particle on the surface to move in a roughly circular orbit.
穿过深水的海浪使水面上的一个微粒按照一种近乎圆形的轨道移动。
Distributions of stress and particle velocity in the elastic unloading region behind the plastic shock wave are given as well.
同时给出了塑性激波后方弹性卸载区内的应力和质点速度分布规律。
Finally, the influence of resonant Self-focusing on particle acceleration in beat wave accelerator also be discussed.
最后还讨论了共振自聚焦对拍频波加速器中粒子加速过程的影响。
The question of the nature of light , wave or particle, had long been settled decisively in favor of waves.
关于光的本性是波抑或是粒子的问题早就以倾向于波而明确地解决了。
Basically, however, the motion of any wave or particle or entity is unpredictable - free-wheeling and undetermined.
基本上,任何的波或粒子或存在体的动作都是不可预测的- - -无拘无束,而且未决定的。
For breaking wave the horizontal particle velocity can be taken as the wave celerity, since the wave is breaking when horizontal particle velocity is equal to or larger than the wave celerity.
而对于破波,质点的水平速度应该等与波速,由于破波产生的极限就是质点的水平速度等于或大于波速。
Plasma particle simulation wave spectral response to electrostatic wave is systematically analyzed.
本文系统地分析了等离子体粒子模拟的静电波谱响应特性。
These experiments fully proved that a single particle has wave nature.
这些实验充分地证明了单个粒子具有波动性的事实。
Full wave model phase analysis technique may involve wide subjects, but this paper only deals with the analysis methods of ray, amplitude, wave spectrum and particle vibration pattern.
全波模型震相分析法研究的内容是非常广泛的,本文仅对其中的射线分析、振幅分析、波谱分析、质点振动方式分析等方法进行了探讨。
Full wave model phase analysis technique may involve wide subjects, but this paper only deals with the analysis methods of ray, amplitude, wave spectrum and particle vibration pattern.
全波模型震相分析法研究的内容是非常广泛的,本文仅对其中的射线分析、振幅分析、波谱分析、质点振动方式分析等方法进行了探讨。
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